/**************************************************************************
-* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
-* *
-* Author: The ALICE Off-line Project. *
-* Contributors are mentioned in the code where appropriate. *
-* *
-* Permission to use, copy, modify and distribute this software and its *
-* documentation strictly for non-commercial purposes is hereby granted *
-* without fee, provided that the above copyright notice appears in all *
-* copies and that both the copyright notice and this permission notice *
-* appear in the supporting documentation. The authors make no claims *
-* about the suitability of this software for any purpose. It is *
-* provided "as is" without express or implied warranty. *
-**************************************************************************/
+ * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
+ * *
+ * Author: The ALICE Off-line Project. *
+ * Contributors are mentioned in the code where appropriate. *
+ * *
+ * Permission to use, copy, modify and distribute this software and its *
+ * documentation strictly for non-commercial purposes is hereby granted *
+ * without fee, provided that the above copyright notice appears in all *
+ * copies and that both the copyright notice and this permission notice *
+ * appear in the supporting documentation. The authors make no claims *
+ * about the suitability of this software for any purpose. It is *
+ * provided "as is" without express or implied warranty. *
+ **************************************************************************/
+
+/*
+ Class to process/filter reconstruction information from ESD, ESD friends, MC and provide them for later reprocessing
+ Filtering schema - low pt part is downscaled - to have flat pt specatra of selected topologies (tracks and V0s)
+ Downscaling schema is controlled by downscaling factors
+ Usage:
+ 1.) Filtering on Lego train
+ 2.) expert QA for tracking (resolution efficnecy)
+ 3.) pt reoslution studies using V0s
+ 4.) dEdx calibration using V0s
+ 5.) pt resolution and dEdx studies using cosmic
+ +
+ 6.) Info used for later raw data OFFLINE triggering (highPt, V0, laser, cosmic, high dEdx)
+
+ Exported trees (with full objects and dereived variables):
+ 1.) "highPt" - filtered trees with esd tracks, derived variables(propagated tracks), optional MC info +optional space points
+ 2.) "V0s" - - filtered trees with selected V0s (rough KF chi2 cut), KF particle and corresponding esd tracks + optionla space points
+ 3.) "Laser" - dump laser tracks with space points if exests
+ 4.) "CosmicTree" - cosmic track candidate (random or triggered) + esdTracks(up/down)+ optional points
+ 5.) "dEdx" - tree with high dEdx tpc tracks
+*/
#include "iostream"
#include "TSystem.h"
-
#include <TPDGCode.h>
#include <TDatabasePDG.h>
#include "AliInputEventHandler.h"
#include "AliStack.h"
#include "AliTrackReference.h"
+#include "AliTrackPointArray.h"
+#include "AliSysInfo.h"
#include "AliPhysicsSelection.h"
#include "AliAnalysisTask.h"
ClassImp(AliAnalysisTaskFilteredTree)
-//_____________________________________________________________________________
-AliAnalysisTaskFilteredTree::AliAnalysisTaskFilteredTree(const char *name)
+ //_____________________________________________________________________________
+ AliAnalysisTaskFilteredTree::AliAnalysisTaskFilteredTree(const char *name)
: AliAnalysisTaskSE(name)
, fESD(0)
, fMC(0)
, fCentralityEstimator(0)
, fLowPtTrackDownscaligF(0)
, fLowPtV0DownscaligF(0)
+ , fFriendDownscaling(-3.)
, fProcessAll(kFALSE)
, fProcessCosmics(kFALSE)
+ , fProcessITSTPCmatchOut(kFALSE) // swittch to process ITS/TPC standalone tracks
, fHighPtTree(0)
, fV0Tree(0)
, fdEdxTree(0)
, fPtResCentPtTPC(0)
, fPtResCentPtTPCc(0)
, fPtResCentPtTPCITS(0)
+ , fCurrentFileName("")
+ , fDummyTrack(0)
{
// Constructor
//_____________________________________________________________________________
AliAnalysisTaskFilteredTree::~AliAnalysisTaskFilteredTree()
{
- //the output trees not to be deleted in case of proof analysis
- //Bool_t deleteTrees=kTRUE;
- //if ((AliAnalysisManager::GetAnalysisManager()))
- //{
- // if (AliAnalysisManager::GetAnalysisManager()->GetAnalysisType() ==
- // AliAnalysisManager::kProofAnalysis)
- // deleteTrees=kFALSE;
- //}
- //if (deleteTrees) delete fTreeSRedirector;
-
+ //
+ // Destructor
+ //
delete fFilteredTreeEventCuts;
delete fFilteredTreeAcceptanceCuts;
delete fFilteredTreeRecAcceptanceCuts;
//____________________________________________________________________________
Bool_t AliAnalysisTaskFilteredTree::Notify()
{
+ //
+ //
static Int_t count = 0;
count++;
TTree *chain = (TChain*)GetInputData(0);
- if(chain)
- {
+ if(chain){
Printf("Processing %d. file: %s", count, chain->GetCurrentFile()->GetName());
- }
-
-return kTRUE;
+ }
+ fCurrentFileName=chain->GetCurrentFile()->GetName();
+ return kTRUE;
}
//_____________________________________________________________________________
//get the output file to make sure the trees will be associated to it
OpenFile(1);
fTreeSRedirector = new TTreeSRedirector();
-
+
//
// Create trees
fV0Tree = ((*fTreeSRedirector)<<"V0s").GetTree();
fMCEffTree = ((*fTreeSRedirector)<<"MCEffTree").GetTree();
fCosmicPairsTree = ((*fTreeSRedirector)<<"CosmicPairs").GetTree();
-
-
+ if (!fDummyTrack) {
+ fDummyTrack=new AliESDtrack();
+ }
// histogram booking
Double_t maxPhi = 6.5;
Int_t nbinsPhi = 100;
Double_t binsPhi[101];
- for (Int_t i=0;i<=nbinsPhi;i++) {
+ for (Int_t i=0;i<=nbinsPhi;i++) {
binsPhi[i] = minPhi + i*(maxPhi-minPhi)/nbinsPhi;
}
for (Int_t i=0;i<=nbinsCent;i++) {
binsCent[i] = minCent + i*(maxCent-minCent)/nbinsCent;
}
-
+
fPtResPhiPtTPC = new TH3D("fPtResPhiPtTPC","pt rel. resolution from cov. matrix TPC tracks",nbinsPt,binsPt,nbinsPhi,binsPhi,nbins1PtRes,bins1PtRes);
fPtResPhiPtTPCc = new TH3D("fPtResPhiPtTPCc","pt rel. resolution from cov. matrix TPC constrained tracks",nbinsPt,binsPt,nbinsPhi,binsPhi,nbins1PtRes,bins1PtRes);
fPtResPhiPtTPCITS = new TH3D("fPtResPhiPtTPCITS","pt rel. resolution from cov. matrix TPC+ITS tracks",nbinsPt,binsPt,nbinsPhi,binsPhi,nbins1PtRes,bins1PtRes);
-
-fPtResEtaPtTPC = new TH3D("fPtResEtaPtTPC","pt rel. resolution from cov. matrix TPC tracks",nbinsPt,binsPt,nbinsEta,binsEta,nbins1PtRes,bins1PtRes);
+
+ fPtResEtaPtTPC = new TH3D("fPtResEtaPtTPC","pt rel. resolution from cov. matrix TPC tracks",nbinsPt,binsPt,nbinsEta,binsEta,nbins1PtRes,bins1PtRes);
fPtResEtaPtTPCc = new TH3D("fPtResEtaPtTPCc","pt rel. resolution from cov. matrix TPC constrained tracks",nbinsPt,binsPt,nbinsEta,binsEta,nbins1PtRes,bins1PtRes);
fPtResEtaPtTPCITS = new TH3D("fPtResEtaPtTPCITS","pt rel. resolution from cov. matrix TPC+ITS tracks",nbinsPt,binsPt,nbinsEta,binsEta,nbins1PtRes,bins1PtRes);
-
-fPtResCentPtTPC = new TH3D("fPtResCentPtTPC","pt rel. resolution from cov. matrix TPC tracks",nbinsPt,binsPt,nbinsCent,binsCent,nbins1PtRes,bins1PtRes);
+
+ fPtResCentPtTPC = new TH3D("fPtResCentPtTPC","pt rel. resolution from cov. matrix TPC tracks",nbinsPt,binsPt,nbinsCent,binsCent,nbins1PtRes,bins1PtRes);
fPtResCentPtTPCc = new TH3D("fPtResCentPtTPCc","pt rel. resolution from cov. matrix TPC constrained tracks",nbinsPt,binsPt,nbinsCent,binsCent,nbins1PtRes,bins1PtRes);
fPtResCentPtTPCITS = new TH3D("fPtResCentPtTPCITS","pt rel. resolution from cov. matrix TPC+ITS tracks",nbinsPt,binsPt,nbinsCent,binsCent,nbins1PtRes,bins1PtRes);
-
+
fOutput = new TList;
if(!fOutput) return;
fOutput->SetOwner();
Printf("ERROR: ESD event not available");
return;
}
-
- //// MC event
- //if(fUseMCInfo) {
- // fMC = MCEvent();
- // if (!fMC) {
- // Printf("ERROR: MC event not available");
- // return;
- // }
- //}
-
//if MC info available - use it.
fMC = MCEvent();
-
if(fUseESDfriends) {
- fESDfriend = static_cast<AliESDfriend*>(fESD->FindListObject("AliESDfriend"));
- if(!fESDfriend) {
- Printf("ERROR: ESD friends not available");
+ //fESDfriend = dynamic_cast<AliESDfriend*>(fESD->FindListObject("AliESDfriend"));
+ fESDfriend = ESDfriend();
+ if(!fESDfriend) {
+ Printf("ERROR: ESD friends not available");
}
}
+ AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
+ if (!inputHandler){
+ return;
+ }
//if set, use the environment variables to set the downscaling factors
//AliAnalysisTaskFilteredTree_fLowPtTrackDownscaligF
//AliAnalysisTaskFilteredTree_fLowPtV0DownscaligF
+ //AliAnalysisTaskFilteredTree_fFriendDownscaling
TString env;
env = gSystem->Getenv("AliAnalysisTaskFilteredTree_fLowPtTrackDownscaligF");
- if (!env.IsNull())
- {
+ if (!env.IsNull()){
fLowPtTrackDownscaligF=env.Atof();
AliInfo(Form("fLowPtTrackDownscaligF=%f",fLowPtTrackDownscaligF));
}
env = gSystem->Getenv("AliAnalysisTaskFilteredTree_fLowPtV0DownscaligF");
- if (!env.IsNull())
- {
+ if (!env.IsNull()){
fLowPtV0DownscaligF=env.Atof();
AliInfo(Form("fLowPtV0DownscaligF=%f",fLowPtTrackDownscaligF));
}
-
+ env = gSystem->Getenv("AliAnalysisTaskFilteredTree_fFriendDownscaling");
+ if (!env.IsNull()){
+ fFriendDownscaling=env.Atof();
+ AliInfo(Form(" fFriendDownscaling=%f",fFriendDownscaling));
+ }
+ //
+ //
//
if(fProcessAll) {
ProcessAll(fESD,fMC,fESDfriend); // all track stages and MC
else {
Process(fESD,fMC,fESDfriend); // only global and TPC tracks
}
-
//
ProcessV0(fESD,fMC,fESDfriend);
ProcessLaser(fESD,fMC,fESDfriend);
ProcessdEdx(fESD,fMC,fESDfriend);
-
- if (fProcessCosmics) { ProcessCosmics(fESD); }
+ if (fProcessCosmics) { ProcessCosmics(fESD,fESDfriend); }
if(fMC) { ProcessMCEff(fESD,fMC,fESDfriend);}
+ if (fProcessITSTPCmatchOut) ProcessITSTPCmatchOut(fESD, fESDfriend);
+ printf("processed event %d\n", Int_t(Entry()));
}
//_____________________________________________________________________________
-void AliAnalysisTaskFilteredTree::ProcessCosmics(AliESDEvent *const event)
+void AliAnalysisTaskFilteredTree::ProcessCosmics(AliESDEvent *const event, AliESDfriend* esdFriend)
{
//
- // Select real events with high-pT tracks
+ // Find cosmic pairs (triggered or random)
//
- if(!event) {
- AliDebug(AliLog::kError, "event not available");
- return;
- }
-
- //
- AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
- if (!inputHandler)
- {
- Printf("ERROR: Could not receive input handler");
- return;
- }
-
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
-
-
- // check for cosmic pairs
- //
- // find cosmic pairs trigger by random trigger
- //
+ //
+ AliESDVertex *vertexSPD = (AliESDVertex *)event->GetPrimaryVertexSPD();
+ AliESDVertex *vertexTPC = (AliESDVertex *)event->GetPrimaryVertexTPC();
+ const Double_t kMinPt=0.8;
+ const Double_t kMinPtMax=0.8;
+ const Double_t kMinNcl=50;
+ const Double_t kMaxDelta[5]={2,600,0.02,0.02,0.1};
+ Int_t ntracks=event->GetNumberOfTracks();
+ UInt_t specie = event->GetEventSpecie(); // skip laser events
+ if (specie==AliRecoParam::kCalib) return;
+ Int_t ntracksFriend = esdFriend->GetNumberOfTracks();
+
+
+ for (Int_t itrack0=0;itrack0<ntracks;itrack0++) {
+ AliESDtrack *track0 = event->GetTrack(itrack0);
+ if (!track0) continue;
+ if (!track0->IsOn(AliESDtrack::kTPCrefit)) continue;
+
+ if (TMath::Abs(AliTracker::GetBz())>1 && track0->Pt() < kMinPt) continue;
+ if (track0->Pt() < kMinPt) continue;
+ if (track0->GetTPCncls() < kMinNcl) continue;
+ if (TMath::Abs(track0->GetY())<kMaxDelta[0]) continue;
+ if (track0->GetKinkIndex(0)>0) continue;
+ const Double_t * par0=track0->GetParameter(); //track param at rhe DCA
+ //rm primaries
//
- AliESDVertex *vertexSPD = (AliESDVertex *)event->GetPrimaryVertexSPD();
- AliESDVertex *vertexTPC = (AliESDVertex *)event->GetPrimaryVertexTPC();
- const Double_t kMinPt=0.8;
- const Double_t kMinPtMax=0.8;
- const Double_t kMinNcl=50;
- const Double_t kMaxDelta[5]={2,600,0.02,0.02,0.1};
- Int_t ntracks=event->GetNumberOfTracks();
- // Float_t dcaTPC[2]={0,0};
- // Float_t covTPC[3]={0,0,0};
-
- UInt_t specie = event->GetEventSpecie(); // skip laser events
- if (specie==AliRecoParam::kCalib) return;
-
-
-
- for (Int_t itrack0=0;itrack0<ntracks;itrack0++) {
- AliESDtrack *track0 = event->GetTrack(itrack0);
- if (!track0) continue;
- if (!track0->IsOn(AliESDtrack::kTPCrefit)) continue;
-
- if (TMath::Abs(AliTracker::GetBz())>1 && track0->Pt() < kMinPt) continue;
- if (track0->Pt() < kMinPt) continue;
- if (track0->GetTPCncls() < kMinNcl) continue;
- if (TMath::Abs(track0->GetY())<kMaxDelta[0]) continue;
- if (track0->GetKinkIndex(0)>0) continue;
- const Double_t * par0=track0->GetParameter(); //track param at rhe DCA
- //rm primaries
- //
- //track0->GetImpactParametersTPC(dcaTPC,covTPC);
- //if (TMath::Abs(dcaTPC[0])<kMaxDelta[0]) continue;
+ //track0->GetImpactParametersTPC(dcaTPC,covTPC);
+ //if (TMath::Abs(dcaTPC[0])<kMaxDelta[0]) continue;
+ //if (TMath::Abs(dcaTPC[1])<kMaxDelta[0]*2) continue;
+ // const AliExternalTrackParam * trackIn0 = track0->GetInnerParam();
+ AliESDfriendTrack* friendTrack0=NULL;
+ if (esdFriend &&!esdFriend->TestSkipBit()){
+ if (itrack0<ntracksFriend){
+ friendTrack0 = esdFriend->GetTrack(itrack0);
+ } //this guy can be NULL
+ }
+
+ for (Int_t itrack1=itrack0+1;itrack1<ntracks;itrack1++) {
+ AliESDtrack *track1 = event->GetTrack(itrack1);
+ if (!track1) continue;
+ if (!track1->IsOn(AliESDtrack::kTPCrefit)) continue;
+ if (track1->GetKinkIndex(0)>0) continue;
+ if ((TMath::Abs(AliTracker::GetBz())>1) && (track1->Pt() < kMinPt)) continue;
+ if (track1->Pt() < kMinPt) continue;
+ if (track1->GetTPCncls()<kMinNcl) continue;
+ if (TMath::Abs(AliTracker::GetBz())>1 && TMath::Max(track1->Pt(), track0->Pt())<kMinPtMax) continue;
+ if (TMath::Abs(track1->GetY())<kMaxDelta[0]) continue;
+ //track1->GetImpactParametersTPC(dcaTPC,covTPC);
+ // if (TMath::Abs(dcaTPC[0])<kMaxDelta[0]) continue;
//if (TMath::Abs(dcaTPC[1])<kMaxDelta[0]*2) continue;
- // const AliExternalTrackParam * trackIn0 = track0->GetInnerParam();
- for (Int_t itrack1=itrack0+1;itrack1<ntracks;itrack1++) {
- AliESDtrack *track1 = event->GetTrack(itrack1);
- if (!track1) continue;
- if (!track1->IsOn(AliESDtrack::kTPCrefit)) continue;
- if (track1->GetKinkIndex(0)>0) continue;
- if ((TMath::Abs(AliTracker::GetBz())>1) && (track1->Pt() < kMinPt)) continue;
- if (track1->Pt() < kMinPt) continue;
- if (track1->GetTPCncls()<kMinNcl) continue;
- if (TMath::Abs(AliTracker::GetBz())>1 && TMath::Max(track1->Pt(), track0->Pt())<kMinPtMax) continue;
- if (TMath::Abs(track1->GetY())<kMaxDelta[0]) continue;
- //track1->GetImpactParametersTPC(dcaTPC,covTPC);
- // if (TMath::Abs(dcaTPC[0])<kMaxDelta[0]) continue;
- //if (TMath::Abs(dcaTPC[1])<kMaxDelta[0]*2) continue;
- //
- const Double_t* par1=track1->GetParameter(); //track param at rhe DCA
- //
- Bool_t isPair=kTRUE;
- for (Int_t ipar=0; ipar<5; ipar++){
- if (ipar==4&&TMath::Abs(AliTracker::GetBz())<1) continue; // 1/pt not defined for B field off
- if (TMath::Abs(TMath::Abs(par0[ipar])-TMath::Abs(par1[ipar]))>kMaxDelta[ipar]) isPair=kFALSE;
- }
- if (!isPair) continue;
- if (TMath::Abs(TMath::Abs(track0->GetAlpha()-track1->GetAlpha())-TMath::Pi())>kMaxDelta[2]) isPair=kFALSE;
- //delta with correct sign
- /*
- TCut cut0="abs(t1.fP[0]+t0.fP[0])<2"
- TCut cut3="abs(t1.fP[3]+t0.fP[3])<0.02"
- TCut cut4="abs(t1.fP[4]+t0.fP[4])<0.2"
- */
- if (TMath::Abs(par0[0]+par1[0])>kMaxDelta[0]) isPair=kFALSE; //delta y opposite sign
- if (TMath::Abs(par0[3]+par1[3])>kMaxDelta[3]) isPair=kFALSE; //delta tgl opposite sign
- if (TMath::Abs(AliTracker::GetBz())>1 && TMath::Abs(par0[4]+par1[4])>kMaxDelta[4]) isPair=kFALSE; //delta 1/pt opposite sign
- if (!isPair) continue;
- TString filename(AliAnalysisManager::GetAnalysisManager()->GetTree()->GetCurrentFile()->GetName());
- Int_t eventNumber = event->GetEventNumberInFile();
- //Bool_t hasFriend = kFALSE;
- //Bool_t hasITS=(track0->GetNcls(0)+track1->GetNcls(0)>4);
- //printf("DUMPHPTCosmic:%s|%f|%d|%d|%d\n",filename.Data(),(TMath::Min(track0->Pt(),track1->Pt())), eventNumber,hasFriend,hasITS);
- // const AliExternalTrackParam * trackIn1 = track1->GetInnerParam();
- //
- //
- Int_t ntracksSPD = vertexSPD->GetNContributors();
- Int_t ntracksTPC = vertexTPC->GetNContributors();
- Int_t runNumber = event->GetRunNumber();
- Int_t timeStamp = event->GetTimeStamp();
- ULong64_t triggerMask = event->GetTriggerMask();
- Float_t magField = event->GetMagneticField();
- TObjString triggerClass = event->GetFiredTriggerClasses().Data();
-
- //
- // Dump to the tree
- // vertex
- // TPC-ITS tracks
//
-
- //fCosmicPairsTree->Branch("fileName",&fileName,32000,0);
- //fCosmicPairsTree->Branch("runNumber",&runNumber,"runNumber/I");
- //fCosmicPairsTree->Branch("timeStamp",&timeStamp,"timeStamp/I");
- //fCosmicPairsTree->Branch("eventNumber",&eventNumber,"eventNumber/I");
- //fCosmicPairsTree->Branch("triggerMask",&triggerMask,32000,0);
- //fCosmicPairsTree->Branch("triggerClass",&triggerClass,32000,0);
- //fCosmicPairsTree->Branch("magField",&magField,"magField/F");
- //fCosmicPairsTree->Branch("ntracksSPD",&ntracksSPD,"ntracksSPD/I");
- //fCosmicPairsTree->Branch("ntracksTPC",&ntracksTPC,"ntracksTPC/I");
- //fCosmicPairsTree->Branch("vertexSPD",vertexSPD,32000,0);
- //fCosmicPairsTree->Branch("vertexTPC",vertexTPC,32000,0);
- //fCosmicPairsTree->Branch("track0",track0,32000,0);
- //fCosmicPairsTree->Branch("track1",track1,32000,0);
+ const Double_t* par1=track1->GetParameter(); //track param at rhe DCA
+ //
+ Bool_t isPair=kTRUE;
+ for (Int_t ipar=0; ipar<5; ipar++){
+ if (ipar==4&&TMath::Abs(AliTracker::GetBz())<1) continue; // 1/pt not defined for B field off
+ if (TMath::Abs(TMath::Abs(par0[ipar])-TMath::Abs(par1[ipar]))>kMaxDelta[ipar]) isPair=kFALSE;
+ }
+ if (!isPair) continue;
+ if (TMath::Abs(TMath::Abs(track0->GetAlpha()-track1->GetAlpha())-TMath::Pi())>kMaxDelta[2]) isPair=kFALSE;
+ //delta with correct sign
+ /*
+ TCut cut0="abs(t1.fP[0]+t0.fP[0])<2"
+ TCut cut3="abs(t1.fP[3]+t0.fP[3])<0.02"
+ TCut cut4="abs(t1.fP[4]+t0.fP[4])<0.2"
+ */
+ if (TMath::Abs(par0[0]+par1[0])>kMaxDelta[0]) isPair=kFALSE; //delta y opposite sign
+ if (TMath::Abs(par0[3]+par1[3])>kMaxDelta[3]) isPair=kFALSE; //delta tgl opposite sign
+ if (TMath::Abs(AliTracker::GetBz())>1 && TMath::Abs(par0[4]+par1[4])>kMaxDelta[4]) isPair=kFALSE; //delta 1/pt opposite sign
+ if (!isPair) continue;
+ TString filename(AliAnalysisManager::GetAnalysisManager()->GetTree()->GetCurrentFile()->GetName());
+ Int_t eventNumber = event->GetEventNumberInFile();
//
- //fCosmicPairsTree->Fill();
+ //
+ Int_t ntracksSPD = vertexSPD->GetNContributors();
+ Int_t ntracksTPC = vertexTPC->GetNContributors();
+ Int_t runNumber = event->GetRunNumber();
+ Int_t timeStamp = event->GetTimeStamp();
+ ULong64_t triggerMask = event->GetTriggerMask();
+ Float_t magField = event->GetMagneticField();
+ TObjString triggerClass = event->GetFiredTriggerClasses().Data();
+
+ // Global event id calculation using orbitID, bunchCrossingID and periodID
+ ULong64_t orbitID = (ULong64_t)event->GetOrbitNumber();
+ ULong64_t bunchCrossID = (ULong64_t)event->GetBunchCrossNumber();
+ ULong64_t periodID = (ULong64_t)event->GetPeriodNumber();
+ ULong64_t gid = ((periodID << 36) | (orbitID << 12) | bunchCrossID);
+
+
+ AliESDfriendTrack* friendTrack1=NULL;
+ if (esdFriend &&!esdFriend->TestSkipBit()){
+ if (itrack1<ntracksFriend){
+ friendTrack1 = esdFriend->GetTrack(itrack1);
+ } //this guy can be NULL
+ }
+ //
+ AliESDfriendTrack *friendTrackStore0=friendTrack0; // store friend track0 for later processing
+ AliESDfriendTrack *friendTrackStore1=friendTrack1; // store friend track1 for later processing
+ if (fFriendDownscaling>=1){ // downscaling number of friend tracks
+ if (gRandom->Rndm()>1./fFriendDownscaling){
+ friendTrackStore0 = 0;
+ friendTrackStore1 = 0;
+ }
+ }
+ if (fFriendDownscaling<=0){
+ if (((*fTreeSRedirector)<<"CosmicPairs").GetTree()){
+ TTree * tree = ((*fTreeSRedirector)<<"CosmicPairs").GetTree();
+ if (tree){
+ Double_t sizeAll=tree->GetZipBytes();
+ TBranch * br= tree->GetBranch("friendTrack0.fPoints");
+ Double_t sizeFriend=(br!=NULL)?br->GetZipBytes():0;
+ br= tree->GetBranch("friendTrack0.fCalibContainer");
+ if (br) sizeFriend+=br->GetZipBytes();
+ if (sizeFriend*TMath::Abs(fFriendDownscaling)>sizeAll) {
+ friendTrackStore0=0;
+ friendTrackStore1=0;
+ }
+ }
+ }
+ }
if(!fFillTree) return;
if(!fTreeSRedirector) return;
- (*fTreeSRedirector)<<"CosmicPairs"<<
- "fileName.="<<&fileName<< // file name
- "runNumber="<<runNumber<< // run number
- "evtTimeStamp="<<timeStamp<< // time stamp of event
- "evtNumberInFile="<<eventNumber<< // event number
- "trigger="<<triggerMask<< // trigger
- "triggerClass="<<&triggerClass<< // trigger
- "Bz="<<magField<< // magnetic field
- //
- "multSPD="<<ntracksSPD<<
- "multTPC="<<ntracksTPC<<
- "vertSPD.="<<vertexSPD<< //primary vertex -SPD
- "vertTPC.="<<vertexTPC<< //primary vertex -TPC
- "t0.="<<track0<< //track0
- "t1.="<<track1<< //track1
- "\n";
- }
- }
+ (*fTreeSRedirector)<<"CosmicPairs"<<
+ "gid="<<gid<< // global id of track
+ "fileName.="<<&fCurrentFileName<< // file name
+ "runNumber="<<runNumber<< // run number
+ "evtTimeStamp="<<timeStamp<< // time stamp of event
+ "evtNumberInFile="<<eventNumber<< // event number
+ "trigger="<<triggerMask<< // trigger mask
+ "triggerClass="<<&triggerClass<< // trigger class
+ "Bz="<<magField<< // magnetic field
+ //
+ "multSPD="<<ntracksSPD<< // event ultiplicity
+ "multTPC="<<ntracksTPC<< //
+ "vertSPD.="<<vertexSPD<< // primary vertex -SPD
+ "vertTPC.="<<vertexTPC<< // primary vertex -TPC
+ "t0.="<<track0<< // first half of comsic trak
+ "t1.="<<track1<< // second half of cosmic track
+ "friendTrack0.="<<friendTrackStore0<< // friend information first track + points
+ "friendTrack1.="<<friendTrackStore1<< // frined information first track + points
+ "\n";
+ }
+ }
}
//
// Select real events with high-pT tracks
//
- if(!esdEvent) {
- AliDebug(AliLog::kError, "esdEvent not available");
- return;
- }
// get selection cuts
AliFilteredTreeEventCuts *evtCuts = GetEventCuts();
//
AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
- if (!inputHandler)
- {
- Printf("ERROR: Could not receive input handler");
- return;
- }
-
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
-
// trigger
if(evtCuts->IsTriggerRequired())
{
//const AliESDVertex* vtxESD = 0;
AliESDVertex* vtxESD = 0;
if(GetAnalysisMode() == kTPCAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
}
else if(GetAnalysisMode() == kTPCITSAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
}
else {
- return;
+ return;
}
AliESDVertex* vtxTPC = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
Int_t ir2 = 0;
//
- Double_t vert[3] = {0};
- vert[0] = vtxESD->GetXv();
- vert[1] = vtxESD->GetYv();
- vert[2] = vtxESD->GetZv();
+ //Double_t vert[3] = {0};
+ //vert[0] = vtxESD->GetXv();
+ //vert[1] = vtxESD->GetYv();
+ //vert[2] = vtxESD->GetZv();
Int_t mult = vtxESD->GetNContributors();
Int_t multSPD = vtxSPD->GetNContributors();
Int_t multTPC = vtxTPC->GetNContributors();
Int_t runNumber = esdEvent->GetRunNumber();
Int_t evtTimeStamp = esdEvent->GetTimeStamp();
Int_t evtNumberInFile = esdEvent->GetEventNumberInFile();
+
+ // Global event id calculation using orbitID, bunchCrossingID and periodID
+ ULong64_t orbitID = (ULong64_t)esdEvent->GetOrbitNumber();
+ ULong64_t bunchCrossID = (ULong64_t)esdEvent->GetBunchCrossNumber();
+ ULong64_t periodID = (ULong64_t)esdEvent->GetPeriodNumber();
+ ULong64_t gid = ((periodID << 36) | (orbitID << 12) | bunchCrossID);
+
// high pT tracks
for (Int_t iTrack = 0; iTrack < esdEvent->GetNumberOfTracks(); iTrack++)
if(track->Charge()==0) continue;
if(!esdTrackCuts->AcceptTrack(track)) continue;
if(!accCuts->AcceptTrack(track)) continue;
-
+
// downscale low-pT tracks
Double_t scalempt= TMath::Min(track->Pt(),10.);
Double_t downscaleF = gRandom->Rndm();
// TPC-ITS tracks
//
TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
-
- //fHighPtTree->Branch("fileName",&fileName,32000,0);
- //fHighPtTree->Branch("runNumber",&runNumber,"runNumber/I");
- //fHighPtTree->Branch("evtTimeStamp",&evtTimeStamp,"evtTimeStamp/I");
- //fHighPtTree->Branch("evtNumberInFile",&evtNumberInFile,"evtNumberInFile/I");
- //fHighPtTree->Branch("triggerClass",&triggerClass,32000,0);
- //fHighPtTree->Branch("Bz",&bz,"Bz/F");
- //fHighPtTree->Branch("vtxESD",vtxESD,32000,0);
- //fHighPtTree->Branch("IRtot",&ir1,"IRtot/I");
- //fHighPtTree->Branch("IRint2",&ir2,"IRint2/I");
- //fHighPtTree->Branch("mult",&mult,"mult/I");
- //fHighPtTree->Branch("esdTrack",track,32000,0);
- //fHighPtTree->Branch("centralityF",¢ralityF,"centralityF/F");
-
- //fHighPtTree->Fill();
-
- //Double_t vtxX=vtxESD->GetX();
- //Double_t vtxY=vtxESD->GetY();
- //Double_t vtxZ=vtxESD->GetZ();
if(!fFillTree) return;
if(!fTreeSRedirector) return;
(*fTreeSRedirector)<<"highPt"<<
- "fileName.="<<&fileName<<
+ "gid="<<gid<<
+ "fileName.="<<&fCurrentFileName<<
"runNumber="<<runNumber<<
"evtTimeStamp="<<evtTimeStamp<<
"evtNumberInFile="<<evtNumberInFile<<
- "triggerClass="<<&triggerClass<< // trigger
+ "triggerClass="<<&triggerClass<< // trigger
"Bz="<<bz<< // magnetic field
"vtxESD.="<<vtxESD<<
- "ntracksESD="<<ntracks<< // number of tracks in the ESD
- // "vtxESDx="<<vtxX<<
- // "vtxESDy="<<vtxY<<
- // "vtxESDz="<<vtxZ<<
- "IRtot="<<ir1<< // interaction record history info
- "IRint2="<<ir2<<
+ "ntracksESD="<<ntracks<< // number of tracks in the ESD
+ "IRtot="<<ir1<< // interaction record history info
+ "IRint2="<<ir2<<
"mult="<<mult<< // multiplicity of tracks pointing to the primary vertex
"multSPD="<<multSPD<< // multiplicity of tracks pointing to the SPD primary vertex
"multTPC="<<multTPC<< // multiplicity of tracks pointing to the TPC primary vertex
"\n";
}
}
-
+
}
//_____________________________________________________________________________
-void AliAnalysisTaskFilteredTree::ProcessLaser(AliESDEvent *const esdEvent, AliMCEvent * const /*mcEvent*/, AliESDfriend *const /*esdFriend*/)
+void AliAnalysisTaskFilteredTree::ProcessLaser(AliESDEvent *const esdEvent, AliMCEvent * const /*mcEvent*/, AliESDfriend *const esdFriend)
{
//
- // Process laser events
+ // Process laser events -> dump tracks and clusters to the special tree
//
- if(!esdEvent) {
- AliDebug(AliLog::kError, "esdEvent not available");
- return;
- }
-
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
-
- // laser events
+ const Double_t kMinPt = 5;
+ if(!fFillTree) return;
+ if(!fTreeSRedirector) return;
const AliESDHeader* esdHeader = esdEvent->GetHeader();
- if(esdHeader && esdHeader->GetEventSpecie()==AliRecoParam::kCalib)
- {
+ if(esdHeader && esdHeader->GetEventSpecie()==AliRecoParam::kCalib) {
Int_t countLaserTracks = 0;
- for (Int_t iTrack = 0; iTrack < esdEvent->GetNumberOfTracks(); iTrack++)
- {
+ Int_t runNumber = esdEvent->GetRunNumber();
+ Int_t evtTimeStamp = esdEvent->GetTimeStamp();
+ Int_t evtNumberInFile = esdEvent->GetEventNumberInFile();
+ Float_t bz = esdEvent->GetMagneticField();
+ TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
+ // Global event id calculation using orbitID, bunchCrossingID and periodID
+ ULong64_t orbitID = (ULong64_t)esdEvent->GetOrbitNumber();
+ ULong64_t bunchCrossID = (ULong64_t)esdEvent->GetBunchCrossNumber();
+ ULong64_t periodID = (ULong64_t)esdEvent->GetPeriodNumber();
+ ULong64_t gid = ((periodID << 36) | (orbitID << 12) | bunchCrossID);
+ for (Int_t iTrack = 0; iTrack < esdEvent->GetNumberOfTracks(); iTrack++){
AliESDtrack *track = esdEvent->GetTrack(iTrack);
if(!track) continue;
-
- if(track->GetTPCInnerParam()) countLaserTracks++;
- }
-
- if(countLaserTracks > 100)
- {
- Int_t runNumber = esdEvent->GetRunNumber();
- Int_t evtTimeStamp = esdEvent->GetTimeStamp();
- Int_t evtNumberInFile = esdEvent->GetEventNumberInFile();
- Float_t bz = esdEvent->GetMagneticField();
- TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
-
- //fLaserTree->Branch("fileName",&fileName,32000,0);
- //fLaserTree->Branch("runNumber",&runNumber,"runNumber/I");
- //fLaserTree->Branch("evtTimeStamp",&evtTimeStamp,"evtTimeStamp/I");
- //fLaserTree->Branch("evtNumberInFile",&evtNumberInFile,"evtNumberInFile/I");
- //fLaserTree->Branch("triggerClass",&triggerClass,32000,0);
- //fLaserTree->Branch("Bz",&bz,"Bz/F");
- //fLaserTree->Branch("multTPCtracks",&countLaserTracks,"multTPCtracks/I");
-
- //fLaserTree->Fill();
-
- if(!fFillTree) return;
- if(!fTreeSRedirector) return;
+ if(track->GetTPCInnerParam()) countLaserTracks++;
+ AliESDfriendTrack* friendTrack=NULL;
+ // suppress beam background and CE random reacks
+ if (track->GetInnerParam()->Pt()<kMinPt) continue;
+ Bool_t skipTrack=gRandom->Rndm()>1/(1+TMath::Abs(fFriendDownscaling));
+ if (skipTrack) continue;
+ if (esdFriend) {if (!esdFriend->TestSkipBit()) friendTrack = esdFriend->GetTrack(iTrack);} //this guy can be NULL
(*fTreeSRedirector)<<"Laser"<<
- "fileName.="<<&fileName<<
+ "gid="<<gid<< // global identifier of event
+ "fileName.="<<&fCurrentFileName<< //
"runNumber="<<runNumber<<
"evtTimeStamp="<<evtTimeStamp<<
"evtNumberInFile="<<evtNumberInFile<<
- "triggerClass="<<&triggerClass<< // trigger
- "Bz="<<bz<<
- "multTPCtracks="<<countLaserTracks<<
+ "triggerClass="<<&triggerClass<< // trigger
+ "Bz="<<bz<< // magnetic field
+ "multTPCtracks="<<countLaserTracks<< // multiplicity of tracks
+ "track.="<<track<< // track parameters
+ "friendTrack.="<<friendTrack<< // friend track information
"\n";
}
}
// track references at ITSin, TPCin; InnerParam at first TPC track reference,
// particle ID, mother ID, production mechanism ...
//
-
- if(!esdEvent) {
- AliDebug(AliLog::kError, "esdEvent not available");
- return;
- }
-
// get selection cuts
AliFilteredTreeEventCuts *evtCuts = GetEventCuts();
AliFilteredTreeAcceptanceCuts *accCuts = GetAcceptanceCuts();
//
AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
- if (!inputHandler)
- {
- Printf("ERROR: Could not receive input handler");
- return;
- }
-
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
+
// trigger
if(evtCuts->IsTriggerRequired())
//const AliESDVertex* vtxESD = 0;
AliESDVertex* vtxESD = 0;
if(GetAnalysisMode() == kTPCAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
}
else if(GetAnalysisMode() == kTPCITSAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
}
else {
AliInfo("no ESD vertex");
- return;
+ return;
}
if(!vtxESD) return;
Bool_t isEventOK = evtCuts->AcceptEvent(esdEvent,mcEvent,vtxESD);
-
+
//
// Vertex info comparison and track multiplicity
//
if (track->IsOn(AliVTrack::kTPCrefit)) ntracksTPC++;
if (track->IsOn(AliVTrack::kITSrefit)) ntracksITS++;
}
-
+
//printf("isEventOK %d, isEventTriggered %d \n",isEventOK, isEventTriggered);
//printf("GetAnalysisMode() %d \n",GetAnalysisMode());
Int_t evtTimeStamp = esdEvent->GetTimeStamp();
Int_t evtNumberInFile = esdEvent->GetEventNumberInFile();
+ Int_t numberOfTracks=esdEvent->GetNumberOfTracks();
// high pT tracks
- for (Int_t iTrack = 0; iTrack < esdEvent->GetNumberOfTracks(); iTrack++)
+ for (Int_t iTrack = 0; iTrack < numberOfTracks; iTrack++)
{
AliESDtrack *track = esdEvent->GetTrack(iTrack);
+ AliESDfriendTrack* friendTrack=NULL;
+ Int_t numberOfFriendTracks=0;
+ if (esdFriend) numberOfFriendTracks=esdFriend->GetNumberOfTracks();
+ if (esdFriend && iTrack<numberOfFriendTracks) {if (!esdFriend->TestSkipBit()) friendTrack = esdFriend->GetTrack(iTrack);} //this guy can be NULL
if(!track) continue;
if(track->Charge()==0) continue;
if(!esdTrackCuts->AcceptTrack(track)) continue;
if(!accCuts->AcceptTrack(track)) continue;
-
+
// downscale low-pT tracks
Double_t scalempt= TMath::Min(track->Pt(),10.);
Double_t downscaleF = gRandom->Rndm();
// chi2 distance between TPC refitted constrained and TPC-ITS tracks
// chi2 distance between ITSout and InnerParams tracks
// MC information
-
+
Double_t x[3]; track->GetXYZ(x);
Double_t b[3]; AliTracker::GetBxByBz(x,b);
isOKtrackInnerC = trackInnerC->Rotate(track->GetAlpha());
isOKtrackInnerC = trackInnerC->PropagateTo(track->GetX(),esdEvent->GetMagneticField());
}
-
+
//
// calculate chi2 between vi and vj vectors
// with covi and covj covariance matrices
{
for (Int_t ipar=0; ipar<5; ipar++) {
deltaT(ipar,0)=tpcInnerC->GetParameter()[ipar]-track->GetParameter()[ipar];
- delta(0,ipar)=tpcInnerC->GetParameter()[ipar]-track->GetParameter()[ipar];
+ delta(0,ipar)=tpcInnerC->GetParameter()[ipar]-track->GetParameter()[ipar];
deltaTtrackC(ipar,0)=trackInnerC->GetParameter()[ipar]-track->GetParameter()[ipar];
- deltatrackC(0,ipar)=trackInnerC->GetParameter()[ipar]-track->GetParameter()[ipar];
+ deltatrackC(0,ipar)=trackInnerC->GetParameter()[ipar]-track->GetParameter()[ipar];
for (Int_t jpar=0; jpar<5; jpar++) {
- Int_t index=track->GetIndex(ipar,jpar);
- covarM(ipar,jpar)=track->GetCovariance()[index]+tpcInnerC->GetCovariance()[index];
- covarMtrackC(ipar,jpar)=track->GetCovariance()[index]+trackInnerC->GetCovariance()[index];
+ Int_t index=track->GetIndex(ipar,jpar);
+ covarM(ipar,jpar)=track->GetCovariance()[index]+tpcInnerC->GetCovariance()[index];
+ covarMtrackC(ipar,jpar)=track->GetCovariance()[index]+trackInnerC->GetCovariance()[index];
}
}
AliExternalTrackParam *outerITSc = NULL;
TMatrixD chi2OuterITS(1,1);
- if(esdFriend && esdFriend->TestSkipBit()==kFALSE)
+ if(esdFriend && !esdFriend->TestSkipBit())
{
// propagate ITSout to TPC inner wall
- AliESDfriendTrack *friendTrack = esdFriend->GetTrack(iTrack);
-
if(friendTrack)
- {
- outerITSc = new AliExternalTrackParam(*friendTrack->GetITSOut());
+ {
+
+ outerITSc = NULL;
+ if (friendTrack->GetITSOut()) outerITSc = new AliExternalTrackParam(*(friendTrack->GetITSOut()));
if(outerITSc)
- {
+ {
isOKouterITSc = AliTracker::PropagateTrackToBxByBz(outerITSc,kTPCRadius,track->GetMass(),kStep,kFALSE);
isOKouterITSc = outerITSc->Rotate(trackInnerC2->GetAlpha());
isOKouterITSc = outerITSc->PropagateTo(trackInnerC2->GetX(),esdEvent->GetMagneticField());
- //
+ //
// calculate chi2 between outerITS and innerParams
- // cov without z-coordinate at the moment
- //
+ // cov without z-coordinate at the moment
+ //
TMatrixD deltaTouterITS(4,1);
TMatrixD deltaouterITS(1,4);
TMatrixD covarMouterITS(4,4);
if(isOKtrackInnerC2 && isOKouterITSc) {
- Int_t kipar = 0;
- Int_t kjpar = 0;
+ Int_t kipar = 0;
+ Int_t kjpar = 0;
for (Int_t ipar=0; ipar<5; ipar++) {
- if(ipar!=1) {
+ if(ipar!=1) {
deltaTouterITS(kipar,0)=outerITSc->GetParameter()[ipar]-trackInnerC2->GetParameter()[ipar];
- deltaouterITS(0,kipar)=outerITSc->GetParameter()[ipar]-trackInnerC2->GetParameter()[ipar];
- }
+ deltaouterITS(0,kipar)=outerITSc->GetParameter()[ipar]-trackInnerC2->GetParameter()[ipar];
+ }
kjpar=0;
for (Int_t jpar=0; jpar<5; jpar++) {
- Int_t index=outerITSc->GetIndex(ipar,jpar);
- if(ipar !=1 || jpar!=1) {
- covarMouterITS(kipar,kjpar)=outerITSc->GetCovariance()[index]+trackInnerC2->GetCovariance()[index];
- }
+ Int_t index=outerITSc->GetIndex(ipar,jpar);
+ if(ipar !=1 || jpar!=1) {
+ covarMouterITS(kipar,kjpar)=outerITSc->GetCovariance()[index]+trackInnerC2->GetCovariance()[index];
+ }
if(jpar!=1) kjpar++;
- }
- if(ipar!=1) kipar++;
- }
+ }
+ if(ipar!=1) kipar++;
+ }
// chi2 distance ITSout and InnerParams
TMatrixD covarMInvouterITS = covarMouterITS.Invert();
TMatrixD mat2outerITS = covarMInvouterITS*deltaTouterITS;
chi2OuterITS = deltaouterITS*mat2outerITS;
//chi2OuterITS.Print();
- }
+ }
}
}
}
Bool_t isOKtrackInnerC3 = kFALSE;
AliExternalTrackParam *trackInnerC3 = new AliExternalTrackParam(*(track->GetInnerParam()));
- if(mcEvent)
+ if(mcEvent && stack)
{
- if(!stack) return;
- multMCTrueTracks = GetMCTrueTrackMult(mcEvent,evtCuts,accCuts);
- //
- // global track
- //
- Int_t label = TMath::Abs(track->GetLabel());
- if (label >= mcStackSize) continue;
- particle = stack->Particle(label);
- if (!particle) continue;
- if(particle && particle->GetPDG() && particle->GetPDG()->Charge()!=0.)
- {
- particleMother = GetMother(particle,stack);
- mech = particle->GetUniqueID();
- isPrim = stack->IsPhysicalPrimary(label);
- isFromStrangess = IsFromStrangeness(label,stack);
- isFromConversion = IsFromConversion(label,stack);
- isFromMaterial = IsFromMaterial(label,stack);
- }
+ do //artificial loop (once) to make the continue statements jump out of the MC part
+ {
+ multMCTrueTracks = GetMCTrueTrackMult(mcEvent,evtCuts,accCuts);
+ //
+ // global track
+ //
+ Int_t label = TMath::Abs(track->GetLabel());
+ if (label >= mcStackSize) continue;
+ particle = stack->Particle(label);
+ if (!particle) continue;
+ if(particle && particle->GetPDG() && particle->GetPDG()->Charge()!=0.)
+ {
+ particleMother = GetMother(particle,stack);
+ mech = particle->GetUniqueID();
+ isPrim = stack->IsPhysicalPrimary(label);
+ isFromStrangess = IsFromStrangeness(label,stack);
+ isFromConversion = IsFromConversion(label,stack);
+ isFromMaterial = IsFromMaterial(label,stack);
+ }
- //
- // TPC track
- //
- Int_t labelTPC = TMath::Abs(track->GetTPCLabel());
- if (labelTPC >= mcStackSize) continue;
- particleTPC = stack->Particle(labelTPC);
- if (!particleTPC) continue;
- if(particleTPC && particleTPC->GetPDG() && particleTPC->GetPDG()->Charge()!=0.)
- {
- particleMotherTPC = GetMother(particleTPC,stack);
- mechTPC = particleTPC->GetUniqueID();
- isPrimTPC = stack->IsPhysicalPrimary(labelTPC);
- isFromStrangessTPC = IsFromStrangeness(labelTPC,stack);
- isFromConversionTPC = IsFromConversion(labelTPC,stack);
- isFromMaterialTPC = IsFromMaterial(labelTPC,stack);
- }
+ //
+ // TPC track
+ //
+ Int_t labelTPC = TMath::Abs(track->GetTPCLabel());
+ if (labelTPC >= mcStackSize) continue;
+ particleTPC = stack->Particle(labelTPC);
+ if (!particleTPC) continue;
+ if(particleTPC && particleTPC->GetPDG() && particleTPC->GetPDG()->Charge()!=0.)
+ {
+ particleMotherTPC = GetMother(particleTPC,stack);
+ mechTPC = particleTPC->GetUniqueID();
+ isPrimTPC = stack->IsPhysicalPrimary(labelTPC);
+ isFromStrangessTPC = IsFromStrangeness(labelTPC,stack);
+ isFromConversionTPC = IsFromConversion(labelTPC,stack);
+ isFromMaterialTPC = IsFromMaterial(labelTPC,stack);
+ }
- //
- // store first track reference
- // for TPC track
- //
- TParticle *part=0;
- TClonesArray *trefs=0;
- Int_t status = mcEvent->GetParticleAndTR(TMath::Abs(labelTPC), part, trefs);
-
- if(status>0 && part && trefs && part->GetPDG() && part->GetPDG()->Charge()!=0.)
- {
- Int_t nTrackRef = trefs->GetEntries();
- //printf("nTrackRef %d \n",nTrackRef);
-
- Int_t countITS = 0;
- for (Int_t iref = 0; iref < nTrackRef; iref++)
+ //
+ // store first track reference
+ // for TPC track
+ //
+ TParticle *part=0;
+ TClonesArray *trefs=0;
+ Int_t status = mcEvent->GetParticleAndTR(TMath::Abs(labelTPC), part, trefs);
+
+ if(status>0 && part && trefs && part->GetPDG() && part->GetPDG()->Charge()!=0.)
{
- AliTrackReference *ref = (AliTrackReference *)trefs->At(iref);
+ Int_t nTrackRef = trefs->GetEntries();
+ //printf("nTrackRef %d \n",nTrackRef);
- // Ref. in the middle ITS
- if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kITS)
+ Int_t countITS = 0;
+ for (Int_t iref = 0; iref < nTrackRef; iref++)
{
- nrefITS++;
- if(!refITS && countITS==2) {
- refITS = ref;
- //printf("refITS %p \n",refITS);
- }
- countITS++;
+ AliTrackReference *ref = (AliTrackReference *)trefs->At(iref);
+
+ // Ref. in the middle ITS
+ if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kITS)
+ {
+ nrefITS++;
+ if(!refITS && countITS==2) {
+ refITS = ref;
+ //printf("refITS %p \n",refITS);
+ }
+ countITS++;
+ }
+
+ // TPC
+ if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kTPC)
+ {
+ nrefTPC++;
+ refTPCOut=ref;
+ if(!refTPCIn) {
+ refTPCIn = ref;
+ //printf("refTPCIn %p \n",refTPCIn);
+ //break;
+ }
+ }
+ // TRD
+ if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kTRD)
+ {
+ nrefTRD++;
+ if(!refTRD) {
+ refTRD = ref;
+ }
+ }
+ // TOF
+ if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kTOF)
+ {
+ nrefTOF++;
+ if(!refTOF) {
+ refTOF = ref;
+ }
+ }
+ // EMCAL
+ if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kEMCAL)
+ {
+ nrefEMCAL++;
+ if(!refEMCAL) {
+ refEMCAL = ref;
+ }
+ }
+ // PHOS
+ // if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kPHOS)
+ // {
+ // nrefPHOS++;
+ // if(!refPHOS) {
+ // refPHOS = ref;
+ // }
+ // }
}
- // TPC
- if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kTPC)
- {
- nrefTPC++;
- refTPCOut=ref;
- if(!refTPCIn) {
- refTPCIn = ref;
- //printf("refTPCIn %p \n",refTPCIn);
- //break;
- }
- }
- // TRD
- if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kTRD)
- {
- nrefTRD++;
- if(!refTRD) {
- refTRD = ref;
- }
- }
- // TOF
- if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kTOF)
+ // transform inner params to TrackRef
+ // reference frame
+ if(refTPCIn && trackInnerC3)
{
- nrefTOF++;
- if(!refTOF) {
- refTOF = ref;
- }
+ Double_t kRefPhi = TMath::ATan2(refTPCIn->Y(),refTPCIn->X());
+ isOKtrackInnerC3 = trackInnerC3->Rotate(kRefPhi);
+ isOKtrackInnerC3 = AliTracker::PropagateTrackToBxByBz(trackInnerC3,refTPCIn->R(),track->GetMass(),kStep,kFALSE);
}
- // EMCAL
- if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kEMCAL)
- {
- nrefEMCAL++;
- if(!refEMCAL) {
- refEMCAL = ref;
- }
- }
- // PHOS
- // if(ref && ref->Label()==label && ref->DetectorId()==AliTrackReference::kPHOS)
-// {
-// nrefPHOS++;
-// if(!refPHOS) {
-// refPHOS = ref;
-// }
-// }
- }
+ }
- // transform inner params to TrackRef
- // reference frame
- if(refTPCIn && trackInnerC3)
- {
- Double_t kRefPhi = TMath::ATan2(refTPCIn->Y(),refTPCIn->X());
- isOKtrackInnerC3 = trackInnerC3->Rotate(kRefPhi);
- isOKtrackInnerC3 = AliTracker::PropagateTrackToBxByBz(trackInnerC3,refTPCIn->R(),track->GetMass(),kStep,kFALSE);
- }
+ //
+ // ITS track
+ //
+ Int_t labelITS = TMath::Abs(track->GetITSLabel());
+ if (labelITS >= mcStackSize) continue;
+ particleITS = stack->Particle(labelITS);
+ if (!particleITS) continue;
+ if(particleITS && particleITS->GetPDG() && particleITS->GetPDG()->Charge()!=0.)
+ {
+ particleMotherITS = GetMother(particleITS,stack);
+ mechITS = particleITS->GetUniqueID();
+ isPrimITS = stack->IsPhysicalPrimary(labelITS);
+ isFromStrangessITS = IsFromStrangeness(labelITS,stack);
+ isFromConversionITS = IsFromConversion(labelITS,stack);
+ isFromMaterialITS = IsFromMaterial(labelITS,stack);
+ }
}
+ while (0);
+ }
//
- // ITS track
- //
- Int_t labelITS = TMath::Abs(track->GetITSLabel());
- if (labelITS >= mcStackSize) continue;
- particleITS = stack->Particle(labelITS);
- if (!particleITS) continue;
- if(particleITS && particleITS->GetPDG() && particleITS->GetPDG()->Charge()!=0.)
- {
- particleMotherITS = GetMother(particleITS,stack);
- mechITS = particleITS->GetUniqueID();
- isPrimITS = stack->IsPhysicalPrimary(labelITS);
- isFromStrangessITS = IsFromStrangeness(labelITS,stack);
- isFromConversionITS = IsFromConversion(labelITS,stack);
- isFromMaterialITS = IsFromMaterial(labelITS,stack);
+ Bool_t dumpToTree=kFALSE;
+
+ if(isOKtpcInnerC && isOKtrackInnerC) dumpToTree = kTRUE;
+ //if(fUseESDfriends && isOKtrackInnerC2 && isOKouterITSc) dumpToTree = kTRUE;
+ if(isOKtrackInnerC2 && isOKouterITSc) dumpToTree = kTRUE;
+ if(mcEvent && isOKtrackInnerC3) dumpToTree = kTRUE;
+ TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
+ if (fReducePileUp){
+ //
+ // 18.03 - Reduce pile-up chunks, done outside of the ESDTrackCuts for 2012/2013 data pile-up about 95 % of tracks
+ // Done only in case no MC info
+ //
+ Float_t dcaTPC[2];
+ track->GetImpactParametersTPC(dcaTPC[0],dcaTPC[1]);
+ Bool_t isRoughPrimary = TMath::Abs(dcaTPC[1])<10;
+ Bool_t hasOuter=(track->IsOn(AliVTrack::kITSin))||(track->IsOn(AliVTrack::kTOFout))||(track->IsOn(AliVTrack::kTRDin));
+ Bool_t keepPileUp=gRandom->Rndm()<0.05;
+ if ( (!hasOuter) && (!isRoughPrimary) && (!keepPileUp)){
+ dumpToTree=kFALSE;
+ }
}
- }
- //
- Bool_t dumpToTree=kFALSE;
-
- if(isOKtpcInnerC && isOKtrackInnerC) dumpToTree = kTRUE;
- if(fUseESDfriends && isOKtrackInnerC2 && isOKouterITSc) dumpToTree = kTRUE;
- if(mcEvent && isOKtrackInnerC3) dumpToTree = kTRUE;
- TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
- if (fReducePileUp){
- //
- // 18.03 - Reduce pile-up chunks, done outside of the ESDTrackCuts for 2012/2013 data pile-up about 95 % of tracks
- // Done only in case no MC info
- //
- Float_t dcaTPC[2];
- track->GetImpactParametersTPC(dcaTPC[0],dcaTPC[1]);
- Bool_t isRoughPrimary = TMath::Abs(dcaTPC[1])<10;
- Bool_t hasOuter=(track->IsOn(AliVTrack::kITSin))||(track->IsOn(AliVTrack::kTOFout))||(track->IsOn(AliVTrack::kTRDin));
- Bool_t keepPileUp=gRandom->Rndm()<0.05;
- if ( (!hasOuter) && (!isRoughPrimary) && (!keepPileUp)){
- dumpToTree=kFALSE;
+ //init dummy objects
+ static AliESDVertex dummyvtxESD;
+ //if (!dummyvtxESD)
+ //{
+ // dummyvtxESD=new AliESDVertex();
+ // //dummyvtxESD->SetNContributors(1);
+ // //UShort_t pindices[1]; pindices[0]=0;
+ // //dummyvtxESD->SetIndices(1,pindices);
+ // //dummyvtxESD->SetNContributors(0);
+ //}
+ static AliExternalTrackParam dummyexternaltrackparam;
+ //if (!dummyexternaltrackparam) dummyexternaltrackparam=new AliExternalTrackParam();
+ static AliTrackReference dummytrackreference;
+ //if (!dummytrackreference) dummytrackreference=new AliTrackReference();
+ static TParticle dummyparticle;
+ //if (!dummyparticle) dummyparticle=new TParticle();
+
+ //assign the dummy objects if needed
+ if (!track) {track=fDummyTrack;}
+ AliESDfriendTrack *friendTrackStore=friendTrack; // store friend track for later processing
+ if (fFriendDownscaling>=1){ // downscaling number of friend tracks
+ friendTrackStore = (gRandom->Rndm()<1./fFriendDownscaling)? friendTrack:0;
+ }
+ if (fFriendDownscaling<=0){
+ if (((*fTreeSRedirector)<<"highPt").GetTree()){
+ TTree * tree = ((*fTreeSRedirector)<<"highPt").GetTree();
+ if (tree){
+ Double_t sizeAll=tree->GetZipBytes();
+ TBranch * br= tree->GetBranch("friendTrack.fPoints");
+ Double_t sizeFriend=(br!=NULL)?br->GetZipBytes():0;
+ br= tree->GetBranch("friendTrack.fCalibContainer");
+ if (br) sizeFriend+=br->GetZipBytes();
+ if (sizeFriend*TMath::Abs(fFriendDownscaling)>sizeAll) friendTrackStore=0;
+ }
+ }
}
- }
- /////////////////
- //book keeping of created dummy objects (to avoid NULL in trees)
- Bool_t newvtxESD=kFALSE;
- Bool_t newtrack=kFALSE;
- Bool_t newtpcInnerC=kFALSE;
- Bool_t newtrackInnerC=kFALSE;
- Bool_t newtrackInnerC2=kFALSE;
- Bool_t newouterITSc=kFALSE;
- Bool_t newtrackInnerC3=kFALSE;
- Bool_t newrefTPCIn=kFALSE;
- Bool_t newrefITS=kFALSE;
- Bool_t newparticle=kFALSE;
- Bool_t newparticleMother=kFALSE;
- Bool_t newparticleTPC=kFALSE;
- Bool_t newparticleMotherTPC=kFALSE;
- Bool_t newparticleITS=kFALSE;
- Bool_t newparticleMotherITS=kFALSE;
-
- //check that the vertex is there and that it is OK,
- //i.e. no null member arrays, otherwise a problem with merging
- //later on.
- //this is a very ugly hack!
- if (!vtxESD)
- {
- AliInfo("fixing the ESD vertex for streaming");
- vtxESD=new AliESDVertex();
- //vtxESD->SetNContributors(1);
- //UShort_t pindices[1]; pindices[0]=0;
- //vtxESD->SetIndices(1,pindices);
- //vtxESD->SetNContributors(0);
- newvtxESD=kTRUE;
- }
- //
- if (!track) {track=new AliESDtrack();newtrack=kTRUE;}
- if (!tpcInnerC) {tpcInnerC=new AliExternalTrackParam();newtpcInnerC=kTRUE;}
- if (!trackInnerC) {trackInnerC=new AliExternalTrackParam();newtrackInnerC=kTRUE;}
- if (!trackInnerC2) {trackInnerC2=new AliExternalTrackParam();newtrackInnerC2=kTRUE;}
- if (!outerITSc) {outerITSc=new AliExternalTrackParam();newouterITSc=kTRUE;}
- if (!trackInnerC3) {trackInnerC3=new AliExternalTrackParam();newtrackInnerC3=kTRUE;}
- if (mcEvent)
- {
- if (!refTPCIn) {refTPCIn=new AliTrackReference(); newrefTPCIn=kTRUE;}
- if (!refITS) {refITS=new AliTrackReference();newrefITS=kTRUE;}
- if (!particle) {particle=new TParticle(); newparticle=kTRUE;}
- if (!particleMother) {particleMother=new TParticle();newparticleMother=kTRUE;}
- if (!particleTPC) {particleTPC=new TParticle();newparticleTPC=kTRUE;}
- if (!particleMotherTPC) {particleMotherTPC=new TParticle();newparticleMotherTPC=kTRUE;}
- if (!particleITS) {particleITS=new TParticle();newparticleITS=kTRUE;}
- if (!particleMotherITS) {particleMotherITS=new TParticle();newparticleMotherITS=kTRUE;}
- }
- /////////////////////////
-
- //Double_t vtxX=vtxESD->GetX();
- //Double_t vtxY=vtxESD->GetY();
- //Double_t vtxZ=vtxESD->GetZ();
-
- AliESDVertex* pvtxESD = (AliESDVertex*)vtxESD->Clone();
- AliESDtrack* ptrack=(AliESDtrack*)track->Clone();
- AliExternalTrackParam* ptpcInnerC = (AliExternalTrackParam*)tpcInnerC->Clone();
- AliExternalTrackParam* ptrackInnerC = (AliExternalTrackParam*)trackInnerC->Clone();
- AliExternalTrackParam* ptrackInnerC2 = (AliExternalTrackParam*)trackInnerC2->Clone();
- AliExternalTrackParam* pouterITSc = (AliExternalTrackParam*)outerITSc->Clone();
- AliExternalTrackParam* ptrackInnerC3 = (AliExternalTrackParam*)trackInnerC3->Clone();
- Int_t ntracks = esdEvent->GetNumberOfTracks();
-
- // fill histograms
- FillHistograms(ptrack, ptpcInnerC, centralityF, (Double_t)chi2(0,0));
- if(fTreeSRedirector && dumpToTree && fFillTree)
- {
- (*fTreeSRedirector)<<"highPt"<<
- "fileName.="<<&fileName<< // name of the chunk file (hopefully full)
- "runNumber="<<runNumber<< // runNumber
- "evtTimeStamp="<<evtTimeStamp<< // time stamp of event (in seconds)
- "evtNumberInFile="<<evtNumberInFile<< // event number
- "triggerClass="<<&triggerClass<< // trigger class as a string
- "Bz="<<bz<< // solenoid magnetic field in the z direction (in kGaus)
- "vtxESD.="<<pvtxESD<< // vertexer ESD tracks (can be biased by TPC pileup tracks)
- //"vtxESDx="<<vtxX<<
- //"vtxESDy="<<vtxY<<
- //"vtxESDz="<<vtxZ<<
- "IRtot="<<ir1<< // interaction record (trigger) counters - coutner 1
- "IRint2="<<ir2<< // interaction record (trigger) coutners - counter 2
- "mult="<<mult<< // multiplicity of tracks pointing to the primary vertex
- "ntracks="<<ntracks<< // number of the esd tracks (to take into account the pileup in the TPC)
- // important variables for the pile-up studies
- "contTPC="<< contTPC<< // number of contributors to the TPC primary vertex candidate
- "contSPD="<< contSPD<< // number of contributors to the SPD primary vertex candidate
- "vertexPosTPC.="<<&vertexPosTPC<< // TPC vertex position
- "vertexPosSPD.="<<&vertexPosSPD<< // SPD vertex position
- "ntracksTPC="<<ntracksTPC<< // total number of the TPC tracks which were refitted
- "ntracksITS="<<ntracksITS<< // total number of the ITS tracks which were refitted
- //
- "esdTrack.="<<ptrack<< // esdTrack as used in the physical analysis
- "extTPCInnerC.="<<ptpcInnerC<< // ???
- "extInnerParamC.="<<ptrackInnerC<< // ???
- "extInnerParam.="<<ptrackInnerC2<< // ???
- "extOuterITS.="<<pouterITSc<< // ???
- "extInnerParamRef.="<<ptrackInnerC3<< // ???
- "chi2TPCInnerC="<<chi2(0,0)<< // chi2 of tracks ???
- "chi2InnerC="<<chi2trackC(0,0)<< // chi2s of tracks TPCinner to the combined
- "chi2OuterITS="<<chi2OuterITS(0,0)<< // chi2s of tracks TPC at inner wall to the ITSout
- "centralityF="<<centralityF;
+ // if (!friendTrackStore && fFriendDownscaling<=1) {friendTrack=fDummyFriendTrack;}
+ if (!vtxESD) {vtxESD=&dummyvtxESD;}
if (mcEvent)
{
- AliTrackReference refDummy;
- if (!refITS) refITS = &refDummy;
- if (!refTRD) refTRD = &refDummy;
- if (!refTOF) refTOF = &refDummy;
- if (!refEMCAL) refEMCAL = &refDummy;
- if (!refPHOS) refPHOS = &refDummy;
- (*fTreeSRedirector)<<"highPt"<<
- "multMCTrueTracks="<<multMCTrueTracks<< // mC track multiplicities
- "nrefITS="<<nrefITS<< // number of track references in the ITS
- "nrefTPC="<<nrefTPC<< // number of track references in the TPC
- "nrefTRD="<<nrefTRD<< // number of track references in the TRD
- "nrefTOF="<<nrefTOF<< // number of track references in the TOF
- "nrefEMCAL="<<nrefEMCAL<< // number of track references in the TOF
- "nrefPHOS="<<nrefPHOS<< // number of track references in the TOF
- "refTPCIn.="<<refTPCIn<<
- "refTPCOut.="<<refTPCOut<<
- "refITS.="<<refITS<<
- "refTRD.="<<refTRD<<
- "refTOF.="<<refTOF<<
- "refEMCAL.="<<refEMCAL<<
- "refPHOS.="<<refPHOS<<
- "particle.="<<particle<<
- "particleMother.="<<particleMother<<
- "mech="<<mech<<
- "isPrim="<<isPrim<<
- "isFromStrangess="<<isFromStrangess<<
- "isFromConversion="<<isFromConversion<<
- "isFromMaterial="<<isFromMaterial<<
- "particleTPC.="<<particleTPC<<
- "particleMotherTPC.="<<particleMotherTPC<<
- "mechTPC="<<mechTPC<<
- "isPrimTPC="<<isPrimTPC<<
- "isFromStrangessTPC="<<isFromStrangessTPC<<
- "isFromConversionTPC="<<isFromConversionTPC<<
- "isFromMaterialTPC="<<isFromMaterialTPC<<
- "particleITS.="<<particleITS<<
- "particleMotherITS.="<<particleMotherITS<<
- "mechITS="<<mechITS<<
- "isPrimITS="<<isPrimITS<<
- "isFromStrangessITS="<<isFromStrangessITS<<
- "isFromConversionITS="<<isFromConversionITS<<
- "isFromMaterialITS="<<isFromMaterialITS;
+ if (!refTPCIn) {refTPCIn=&dummytrackreference;}
+ if (!refITS) {refITS=&dummytrackreference;}
+ if (!particle) {particle=&dummyparticle;}
+ if (!particleMother) {particleMother=&dummyparticle;}
+ if (!particleTPC) {particleTPC=&dummyparticle;}
+ if (!particleMotherTPC) {particleMotherTPC=&dummyparticle;}
+ if (!particleITS) {particleITS=&dummyparticle;}
+ if (!particleMotherITS) {particleMotherITS=&dummyparticle;}
}
- //finish writing the entry
- AliInfo("writing tree highPt");
- (*fTreeSRedirector)<<"highPt"<<"\n";
- }
- delete pvtxESD;
- delete ptrack;
- delete ptpcInnerC;
- delete ptrackInnerC;
- delete ptrackInnerC2;
- delete pouterITSc;
- delete ptrackInnerC3;
-
- ////////////////////
- //delete the dummy objects we might have created.
- if (newvtxESD) {delete vtxESD; vtxESD=NULL;}
- if (newtrack) {delete track; track=NULL;}
- if (newtpcInnerC) {delete tpcInnerC; tpcInnerC=NULL;}
- if (newtrackInnerC) {delete trackInnerC; trackInnerC=NULL;}
- if (newtrackInnerC2) {delete trackInnerC2; trackInnerC2=NULL;}
- if (newouterITSc) {delete outerITSc; outerITSc=NULL;}
- if (newtrackInnerC3) {delete trackInnerC3; trackInnerC3=NULL;}
- if (newrefTPCIn) {delete refTPCIn; refTPCIn=NULL;}
- if (newrefITS) {delete refITS; refITS=NULL;}
- if (newparticle) {delete particle; particle=NULL;}
- if (newparticleMother) {delete particleMother; particleMother=NULL;}
- if (newparticleTPC) {delete particleTPC; particleTPC=NULL;}
- if (newparticleMotherTPC) {delete particleMotherTPC; particleMotherTPC=NULL;}
- if (newparticleITS) {delete particleITS; particleITS=NULL;}
- if (newparticleMotherITS) {delete particleMotherITS; particleMotherITS=NULL;}
- ///////////////
-
- delete tpcInnerC;
- delete trackInnerC;
- delete trackInnerC2;
- delete outerITSc;
- delete trackInnerC3;
- }
+ Int_t ntracks = esdEvent->GetNumberOfTracks();
+
+ // Global event id calculation using orbitID, bunchCrossingID and periodID
+ ULong64_t orbitID = (ULong64_t)esdEvent->GetOrbitNumber();
+ ULong64_t bunchCrossID = (ULong64_t)esdEvent->GetBunchCrossNumber();
+ ULong64_t periodID = (ULong64_t)esdEvent->GetPeriodNumber();
+ ULong64_t gid = ((periodID << 36) | (orbitID << 12) | bunchCrossID);
+
+ // fill histograms
+ FillHistograms(track, tpcInnerC, centralityF, (Double_t)chi2(0,0));
+
+ if(fTreeSRedirector && dumpToTree && fFillTree) {
+ (*fTreeSRedirector)<<"highPt"<<
+ "gid="<<gid<<
+ "fileName.="<<&fCurrentFileName<< // name of the chunk file (hopefully full)
+ "runNumber="<<runNumber<< // runNumber
+ "evtTimeStamp="<<evtTimeStamp<< // time stamp of event (in seconds)
+ "evtNumberInFile="<<evtNumberInFile<< // event number
+ "triggerClass="<<&triggerClass<< // trigger class as a string
+ "Bz="<<bz<< // solenoid magnetic field in the z direction (in kGaus)
+ "vtxESD.="<<vtxESD<< // vertexer ESD tracks (can be biased by TPC pileup tracks)
+ "IRtot="<<ir1<< // interaction record (trigger) counters - coutner 1
+ "IRint2="<<ir2<< // interaction record (trigger) coutners - counter 2
+ "mult="<<mult<< // multiplicity of tracks pointing to the primary vertex
+ "ntracks="<<ntracks<< // number of the esd tracks (to take into account the pileup in the TPC)
+ // important variables for the pile-up studies
+ "contTPC="<< contTPC<< // number of contributors to the TPC primary vertex candidate
+ "contSPD="<< contSPD<< // number of contributors to the SPD primary vertex candidate
+ "vertexPosTPC.="<<&vertexPosTPC<< // TPC vertex position
+ "vertexPosSPD.="<<&vertexPosSPD<< // SPD vertex position
+ "ntracksTPC="<<ntracksTPC<< // total number of the TPC tracks which were refitted
+ "ntracksITS="<<ntracksITS<< // total number of the ITS tracks which were refitted
+ //
+ "esdTrack.="<<track<< // esdTrack as used in the physical analysis
+ // "friendTrack.="<<friendTrack<< // esdFriendTrack associated to the esdTrack
+ "friendTrack.="<<friendTrackStore<< // esdFriendTrack associated to the esdTrack
+ "extTPCInnerC.="<<tpcInnerC<< // ???
+ "extInnerParamC.="<<trackInnerC<< // ???
+ "extInnerParam.="<<trackInnerC2<< // ???
+ "extOuterITS.="<<outerITSc<< // ???
+ "extInnerParamRef.="<<trackInnerC3<< // ???
+ "chi2TPCInnerC="<<chi2(0,0)<< // chi2 of tracks ???
+ "chi2InnerC="<<chi2trackC(0,0)<< // chi2s of tracks TPCinner to the combined
+ "chi2OuterITS="<<chi2OuterITS(0,0)<< // chi2s of tracks TPC at inner wall to the ITSout
+ "centralityF="<<centralityF;
+ if (mcEvent){
+ static AliTrackReference refDummy;
+ if (!refITS) refITS = &refDummy;
+ if (!refTRD) refTRD = &refDummy;
+ if (!refTOF) refTOF = &refDummy;
+ if (!refEMCAL) refEMCAL = &refDummy;
+ if (!refPHOS) refPHOS = &refDummy;
+ (*fTreeSRedirector)<<"highPt"<<
+ "multMCTrueTracks="<<multMCTrueTracks<< // mC track multiplicities
+ "nrefITS="<<nrefITS<< // number of track references in the ITS
+ "nrefTPC="<<nrefTPC<< // number of track references in the TPC
+ "nrefTRD="<<nrefTRD<< // number of track references in the TRD
+ "nrefTOF="<<nrefTOF<< // number of track references in the TOF
+ "nrefEMCAL="<<nrefEMCAL<< // number of track references in the TOF
+ "nrefPHOS="<<nrefPHOS<< // number of track references in the TOF
+ "refTPCIn.="<<refTPCIn<<
+ "refTPCOut.="<<refTPCOut<<
+ "refITS.="<<refITS<<
+ "refTRD.="<<refTRD<<
+ "refTOF.="<<refTOF<<
+ "refEMCAL.="<<refEMCAL<<
+ "refPHOS.="<<refPHOS<<
+ "particle.="<<particle<<
+ "particleMother.="<<particleMother<<
+ "mech="<<mech<<
+ "isPrim="<<isPrim<<
+ "isFromStrangess="<<isFromStrangess<<
+ "isFromConversion="<<isFromConversion<<
+ "isFromMaterial="<<isFromMaterial<<
+ "particleTPC.="<<particleTPC<<
+ "particleMotherTPC.="<<particleMotherTPC<<
+ "mechTPC="<<mechTPC<<
+ "isPrimTPC="<<isPrimTPC<<
+ "isFromStrangessTPC="<<isFromStrangessTPC<<
+ "isFromConversionTPC="<<isFromConversionTPC<<
+ "isFromMaterialTPC="<<isFromMaterialTPC<<
+ "particleITS.="<<particleITS<<
+ "particleMotherITS.="<<particleMotherITS<<
+ "mechITS="<<mechITS<<
+ "isPrimITS="<<isPrimITS<<
+ "isFromStrangessITS="<<isFromStrangessITS<<
+ "isFromConversionITS="<<isFromConversionITS<<
+ "isFromMaterialITS="<<isFromMaterialITS;
+ }
+ //finish writing the entry
+ AliInfo("writing tree highPt");
+ (*fTreeSRedirector)<<"highPt"<<"\n";
+ }
+ AliSysInfo::AddStamp("filteringTask",iTrack,numberOfTracks,numberOfFriendTracks,(friendTrackStore)?0:1);
+ delete tpcInnerC;
+ delete trackInnerC;
+ delete trackInnerC2;
+ delete outerITSc;
+ delete trackInnerC3;
+ }
}
-
}
//
// Fill tree for efficiency studies MC only
AliInfo("we start!");
-
- if(!esdEvent) {
- AliDebug(AliLog::kError, "esdEvent not available");
- return;
- }
-
if(!mcEvent) {
AliDebug(AliLog::kError, "mcEvent not available");
return;
//
AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
- if (!inputHandler)
- {
- Printf("ERROR: Could not receive input handler");
- return;
- }
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
// trigger
if(evtCuts->IsTriggerRequired())
{
// always MB
isEventTriggered = inputHandler->IsEventSelected() & AliVEvent::kMB;
-
physicsSelection = static_cast<AliPhysicsSelection*> (inputHandler->GetEventSelection());
if(!physicsSelection) return;
Double_t runNumber = esdEvent->GetRunNumber();
Double_t evtTimeStamp = esdEvent->GetTimeStamp();
Int_t evtNumberInFile = esdEvent->GetEventNumberInFile();
- // loop over MC stack
+ // loop over MC stack
for (Int_t iMc = 0; iMc < mcStackSize; ++iMc)
{
particle = stack->Particle(iMc);
AliESDtrack *track = esdEvent->GetTrack(iTrack);
if(!track) continue;
if(track->Charge()==0) continue;
- //
- Int_t label = TMath::Abs(track->GetLabel());
- if (label >= mcStackSize) continue;
- if(label == iMc) {
- Bool_t isAcc=esdTrackCuts->AcceptTrack(track);
- if (isAcc) isESDtrackCut=1;
- if (accCuts->AcceptTrack(track)) isAccCuts=1;
- isRec = kTRUE;
+ //
+ Int_t label = TMath::Abs(track->GetLabel());
+ if (label >= mcStackSize) continue;
+ if(label == iMc) {
+ Bool_t isAcc=esdTrackCuts->AcceptTrack(track);
+ if (isAcc) isESDtrackCut=1;
+ if (accCuts->AcceptTrack(track)) isAccCuts=1;
+ isRec = kTRUE;
trackIndex = iTrack;
- if (recTrack){
- if (track->GetTPCncls()<recTrack->GetTPCncls()) continue; // in case looper tracks use longer track
- if (!isAcc) continue;
- trackLoopIndex = iTrack;
- }
- recTrack = esdEvent->GetTrack(trackIndex);
+ if (recTrack){
+ if (track->GetTPCncls()<recTrack->GetTPCncls()) continue; // in case looper tracks use longer track
+ if (!isAcc) continue;
+ trackLoopIndex = iTrack;
+ }
+ recTrack = esdEvent->GetTrack(trackIndex);
nRec++;
if(track->GetLabel()<0) nFakes++;
- continue;
- }
+ continue;
+ }
}
-
+
// Store information in the output tree
if (trackLoopIndex>-1) {
recTrack = esdEvent->GetTrack(trackLoopIndex);
} else if (trackIndex >-1) {
recTrack = esdEvent->GetTrack(trackIndex);
} else {
- recTrack = new AliESDtrack();
+ recTrack = fDummyTrack;
}
particleMother = GetMother(particle,stack);
//
if(fTreeSRedirector && fFillTree) {
(*fTreeSRedirector)<<"MCEffTree"<<
- "fileName.="<<&fileName<<
+ "fileName.="<<&fCurrentFileName<<
"triggerClass.="<<&triggerClass<<
"runNumber="<<runNumber<<
"evtTimeStamp="<<evtTimeStamp<<
"evtNumberInFile="<<evtNumberInFile<< //
"Bz="<<bz<< // magnetic field
"vtxESD.="<<vtxESD<< // vertex info
- //
+ //
"mult="<<mult<< // primary vertex 9whatewe found) multiplicity
- "multMCTrueTracks="<<multMCTrueTracks<< // mC track multiplicities
- // important variables for the pile-up studies
- "contTPC="<< contTPC<< // number of contributors to the TPC primary vertex candidate
- "contSPD="<< contSPD<< // number of contributors to the SPD primary vertex candidate
- "vertexPosTPC.="<<&vertexPosTPC<< // TPC vertex position
- "vertexPosSPD.="<<&vertexPosSPD<< // SPD vertex position
- "ntracksTPC="<<ntracksTPC<< // total number of the TPC tracks which were refitted
- "ntracksITS="<<ntracksITS<< // total number of the ITS tracks which were refitted
- //
- //
- "isAcc0="<<isESDtrackCut<< // track accepted by ESD track cuts
- "isAcc1="<<isAccCuts<< // track accepted by acceptance cuts flag
+ "multMCTrueTracks="<<multMCTrueTracks<< // mC track multiplicities
+ // important variables for the pile-up studies
+ "contTPC="<< contTPC<< // number of contributors to the TPC primary vertex candidate
+ "contSPD="<< contSPD<< // number of contributors to the SPD primary vertex candidate
+ "vertexPosTPC.="<<&vertexPosTPC<< // TPC vertex position
+ "vertexPosSPD.="<<&vertexPosSPD<< // SPD vertex position
+ "ntracksTPC="<<ntracksTPC<< // total number of the TPC tracks which were refitted
+ "ntracksITS="<<ntracksITS<< // total number of the ITS tracks which were refitted
+ //
+ //
+ "isAcc0="<<isESDtrackCut<< // track accepted by ESD track cuts
+ "isAcc1="<<isAccCuts<< // track accepted by acceptance cuts flag
"esdTrack.="<<recTrack<< // reconstructed track (only the longest from the loopers)
"isRec="<<isRec<< // track was reconstructed
"tpcTrackLength="<<tpcTrackLength<< // track length in the TPC r projection
"\n";
}
- if(trackIndex <0 && recTrack) delete recTrack; recTrack=0;
+ //if(trackIndex <0 && recTrack) delete recTrack; recTrack=0;
}
}
}
//_____________________________________________________________________________
-void AliAnalysisTaskFilteredTree::ProcessV0(AliESDEvent *const esdEvent, AliMCEvent * const mcEvent, AliESDfriend *const /*esdFriend*/)
+void AliAnalysisTaskFilteredTree::ProcessV0(AliESDEvent *const esdEvent, AliMCEvent * const mcEvent, AliESDfriend *const esdFriend)
{
//
// Select real events with V0 (K0s and Lambda and Gamma) high-pT candidates
//
AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
- if (!inputHandler)
- {
- Printf("ERROR: Could not receive input handler");
- return;
- }
-
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
// trigger
if(evtCuts->IsTriggerRequired())
//const AliESDVertex* vtxESD = 0;
AliESDVertex* vtxESD = 0;
if(GetAnalysisMode() == kTPCAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
}
else if(GetAnalysisMode() == kTPCITSAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
}
else {
- return;
+ return;
}
if(!vtxESD) return;
// check event cuts
if(isEventOK && isEventTriggered) {
- //
- // Dump the pt downscaled V0 into the tree
- //
- Int_t ntracks = esdEvent->GetNumberOfTracks();
- Int_t nV0s = esdEvent->GetNumberOfV0s();
- Int_t run = esdEvent->GetRunNumber();
- Int_t time= esdEvent->GetTimeStamp();
- Int_t evNr=esdEvent->GetEventNumberInFile();
- Double_t bz = esdEvent->GetMagneticField();
-
-
- for (Int_t iv0=0; iv0<nV0s; iv0++){
- AliESDv0 * v0 = esdEvent->GetV0(iv0);
- if (!v0) continue;
- AliESDtrack * track0 = esdEvent->GetTrack(v0->GetIndex(0));
- AliESDtrack * track1 = esdEvent->GetTrack(v0->GetIndex(1));
- if (!track0) continue;
- if (!track1) continue;
- if (track0->GetSign()<0) {
- track1 = esdEvent->GetTrack(v0->GetIndex(0));
- track0 = esdEvent->GetTrack(v0->GetIndex(1));
- }
//
- Bool_t isDownscaled = IsV0Downscaled(v0);
- if (isDownscaled) continue;
- AliKFParticle kfparticle; //
- Int_t type=GetKFParticle(v0,esdEvent,kfparticle);
- if (type==0) continue;
- TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
-
- if(!fFillTree) return;
- if(!fTreeSRedirector) return;
- (*fTreeSRedirector)<<"V0s"<<
- "isDownscaled="<<isDownscaled<<
- "triggerClass="<<&triggerClass<< // trigger
- "Bz="<<bz<<
- "fileName.="<<&fileName<<
- "runNumber="<<run<<
- "evtTimeStamp="<<time<<
- "evtNumberInFile="<<evNr<<
- "type="<<type<<
- "ntracks="<<ntracks<<
- "v0.="<<v0<<
- "kf.="<<&kfparticle<<
- "track0.="<<track0<<
- "track1.="<<track1<<
- "centralityF="<<centralityF<<
- "\n";
- }
+ // Dump the pt downscaled V0 into the tree
+ //
+ Int_t ntracks = esdEvent->GetNumberOfTracks();
+ Int_t nV0s = esdEvent->GetNumberOfV0s();
+ Int_t run = esdEvent->GetRunNumber();
+ Int_t time= esdEvent->GetTimeStamp();
+ Int_t evNr=esdEvent->GetEventNumberInFile();
+ Double_t bz = esdEvent->GetMagneticField();
+
+ // Global event id calculation using orbitID, bunchCrossingID and periodID
+ ULong64_t orbitID = (ULong64_t)esdEvent->GetOrbitNumber();
+ ULong64_t bunchCrossID = (ULong64_t)esdEvent->GetBunchCrossNumber();
+ ULong64_t periodID = (ULong64_t)esdEvent->GetPeriodNumber();
+ ULong64_t gid = ((periodID << 36) | (orbitID << 12) | bunchCrossID);
+
+
+ for (Int_t iv0=0; iv0<nV0s; iv0++){
+
+ AliESDv0 * v0 = esdEvent->GetV0(iv0);
+ if (!v0) continue;
+ AliESDtrack * track0 = esdEvent->GetTrack(v0->GetIndex(0));
+ AliESDtrack * track1 = esdEvent->GetTrack(v0->GetIndex(1));
+ if (!track0) continue;
+ if (!track1) continue;
+ AliESDfriendTrack* friendTrack0=NULL;
+ AliESDfriendTrack* friendTrack1=NULL;
+ if (esdFriend) {
+ if (!esdFriend->TestSkipBit()){
+ Int_t ntracksFriend = esdFriend->GetNumberOfTracks();
+ if (v0->GetIndex(0)<ntracksFriend){
+ friendTrack0 = esdFriend->GetTrack(v0->GetIndex(0)); //this guy can be NULL
+ }
+ if (v0->GetIndex(1)<ntracksFriend){
+ friendTrack1 = esdFriend->GetTrack(v0->GetIndex(1)); //this guy can be NULL
+ }
+ }
+ }
+ if (track0->GetSign()<0) {
+ track1 = esdEvent->GetTrack(v0->GetIndex(0));
+ track0 = esdEvent->GetTrack(v0->GetIndex(1));
+ }
+
+ //
+ AliESDfriendTrack *friendTrackStore0=friendTrack0; // store friend track0 for later processing
+ AliESDfriendTrack *friendTrackStore1=friendTrack1; // store friend track1 for later processing
+ if (fFriendDownscaling>=1){ // downscaling number of friend tracks
+ if (gRandom->Rndm()>1./fFriendDownscaling){
+ friendTrackStore0 = 0;
+ friendTrackStore1 = 0;
+ }
+ }
+ if (fFriendDownscaling<=0){
+ if (((*fTreeSRedirector)<<"V0s").GetTree()){
+ TTree * tree = ((*fTreeSRedirector)<<"V0s").GetTree();
+ if (tree){
+ Double_t sizeAll=tree->GetZipBytes();
+ TBranch * br= tree->GetBranch("friendTrack0.fPoints");
+ Double_t sizeFriend=(br!=NULL)?br->GetZipBytes():0;
+ br= tree->GetBranch("friendTrack0.fCalibContainer");
+ if (br) sizeFriend+=br->GetZipBytes();
+ if (sizeFriend*TMath::Abs(fFriendDownscaling)>sizeAll) {
+ friendTrackStore0=0;
+ friendTrackStore1=0;
+ }
+ }
+ }
+ }
+
+ //
+ Bool_t isDownscaled = IsV0Downscaled(v0);
+ if (isDownscaled) continue;
+ AliKFParticle kfparticle; //
+ Int_t type=GetKFParticle(v0,esdEvent,kfparticle);
+ if (type==0) continue;
+ TObjString triggerClass = esdEvent->GetFiredTriggerClasses().Data();
+
+ if(!fFillTree) return;
+ if(!fTreeSRedirector) return;
+ (*fTreeSRedirector)<<"V0s"<<
+ "gid="<<gid<< // global id of event
+ "isDownscaled="<<isDownscaled<< //
+ "triggerClass="<<&triggerClass<< // trigger
+ "Bz="<<bz<< //
+ "fileName.="<<&fCurrentFileName<< // full path - file name with ESD
+ "runNumber="<<run<< //
+ "evtTimeStamp="<<time<< // time stamp of event in secons
+ "evtNumberInFile="<<evNr<< //
+ "type="<<type<< // type of V0-
+ "ntracks="<<ntracks<<
+ "v0.="<<v0<<
+ "kf.="<<&kfparticle<<
+ "track0.="<<track0<< // track
+ "track1.="<<track1<<
+ "friendTrack0.="<<friendTrackStore0<<
+ "friendTrack1.="<<friendTrackStore1<<
+ "centralityF="<<centralityF<<
+ "\n";
+ }
}
}
//_____________________________________________________________________________
-void AliAnalysisTaskFilteredTree::ProcessdEdx(AliESDEvent *const esdEvent, AliMCEvent * const mcEvent, AliESDfriend *const /*esdFriend*/)
+void AliAnalysisTaskFilteredTree::ProcessdEdx(AliESDEvent *const esdEvent, AliMCEvent * const mcEvent, AliESDfriend *const esdFriend)
{
//
// Select real events with large TPC dEdx signal
return;
}
- // get file name
- TTree *chain = (TChain*)GetInputData(0);
- if(!chain) {
- Printf("ERROR: Could not receive input chain");
- return;
- }
- TObjString fileName(chain->GetCurrentFile()->GetName());
// trigger
Bool_t isEventTriggered = kTRUE;
//
AliInputEventHandler* inputHandler = (AliInputEventHandler*) AliAnalysisManager::GetAnalysisManager()->GetInputEventHandler();
- if (!inputHandler)
- {
- Printf("ERROR: Could not receive input handler");
- return;
- }
if(evtCuts->IsTriggerRequired())
{
// get reconstructed vertex
AliESDVertex* vtxESD = 0;
if(GetAnalysisMode() == kTPCAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTPC();
}
else if(GetAnalysisMode() == kTPCITSAnalysisMode) {
- vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
+ vtxESD = (AliESDVertex*)esdEvent->GetPrimaryVertexTracks();
}
else {
- return;
+ return;
}
if(!vtxESD) return;
Double_t runNumber = esdEvent->GetRunNumber();
Double_t evtTimeStamp = esdEvent->GetTimeStamp();
Int_t evtNumberInFile = esdEvent->GetEventNumberInFile();
-
+
+ // Global event id calculation using orbitID, bunchCrossingID and periodID
+ ULong64_t orbitID = (ULong64_t)esdEvent->GetOrbitNumber();
+ ULong64_t bunchCrossID = (ULong64_t)esdEvent->GetBunchCrossNumber();
+ ULong64_t periodID = (ULong64_t)esdEvent->GetPeriodNumber();
+ ULong64_t gid = ((periodID << 36) | (orbitID << 12) | bunchCrossID);
+
// large dEdx
for (Int_t iTrack = 0; iTrack < esdEvent->GetNumberOfTracks(); iTrack++)
{
AliESDtrack *track = esdEvent->GetTrack(iTrack);
if(!track) continue;
+ AliESDfriendTrack* friendTrack=NULL;
+ if (esdFriend && !esdFriend->TestSkipBit()) {
+ Int_t ntracksFriend = esdFriend->GetNumberOfTracks();
+ if (iTrack<ntracksFriend){
+ friendTrack = esdFriend->GetTrack(iTrack);
+ } //this guy can be NULL
+ }
+
if(track->Charge()==0) continue;
if(!esdTrackCuts->AcceptTrack(track)) continue;
if(!accCuts->AcceptTrack(track)) continue;
if(!fFillTree) return;
if(!fTreeSRedirector) return;
- (*fTreeSRedirector)<<"dEdx"<<
- "fileName.="<<&fileName<<
- "runNumber="<<runNumber<<
- "evtTimeStamp="<<evtTimeStamp<<
- "evtNumberInFile="<<evtNumberInFile<<
- "triggerClass="<<&triggerClass<< // trigger
- "Bz="<<bz<<
- "vtxESD.="<<vtxESD<<
- "mult="<<mult<<
- "esdTrack.="<<track<<
- "\n";
+ (*fTreeSRedirector)<<"dEdx"<< // high dEdx tree
+ "gid="<<gid<< // global id
+ "fileName.="<<&fCurrentFileName<< // file name
+ "runNumber="<<runNumber<<
+ "evtTimeStamp="<<evtTimeStamp<<
+ "evtNumberInFile="<<evtNumberInFile<<
+ "triggerClass="<<&triggerClass<< // trigger
+ "Bz="<<bz<<
+ "vtxESD.="<<vtxESD<< //
+ "mult="<<mult<<
+ "esdTrack.="<<track<<
+ "friendTrack.="<<friendTrack<<
+ "\n";
}
}
}
AliESDtrack * track0 = event->GetTrack(v0->GetIndex(0));
AliESDtrack * track1 = event->GetTrack(v0->GetIndex(1));
/*
- TCut cutD="abs(track0.fD/sqrt(track0.fCdd))>2&&abs(track1.fD/sqrt(track1.fCdd))>2";
- TCut cutTheta="abs(track0.fP[3])<1&&abs(track1.fP[3])<1";
- TCut cutNcl="track0.GetTPCClusterInfo(2,1)>100&&track1.GetTPCClusterInfo(2,1)>100";
- */
+ TCut cutD="abs(track0.fD/sqrt(track0.fCdd))>2&&abs(track1.fD/sqrt(track1.fCdd))>2";
+ TCut cutTheta="abs(track0.fP[3])<1&&abs(track1.fP[3])<1";
+ TCut cutNcl="track0.GetTPCClusterInfo(2,1)>100&&track1.GetTPCClusterInfo(2,1)>100";
+ */
if (TMath::Abs(track0->GetTgl())>1) return 0;
if (TMath::Abs(track1->GetTgl())>1) return 0;
if ((track0->GetTPCClusterInfo(2,1))<100) return 0;
if ((track1->GetTPCClusterInfo(2,1))<100) return 0;
- //if ((track0->GetITSclusters(0))<2) return 0;
- //if ((track1->GetITSclusters(0))<2) return 0;
Float_t pos0[2]={0}, cov0[3]={0};
Float_t pos1[2]={0}, cov1[3]={0};
track0->GetImpactParameters(pos0,cov0);
return kFALSE;
/*
- TH1F his1("his1","his1",100,0,10);
- TH1F his2("his2","his2",100,0,10);
- {for (Int_t i=0; i<10000; i++){
- Double_t rnd=gRandom->Exp(1);
- Bool_t isDownscaled =TMath::Exp(rnd)<100*gRandom->Rndm();
- his1->Fill(rnd);
- if (!isDownscaled) his2->Fill(rnd);
- }}
+ TH1F his1("his1","his1",100,0,10);
+ TH1F his2("his2","his2",100,0,10);
+ {for (Int_t i=0; i<10000; i++){
+ Double_t rnd=gRandom->Exp(1);
+ Bool_t isDownscaled =TMath::Exp(rnd)<100*gRandom->Rndm();
+ his1->Fill(rnd);
+ if (!isDownscaled) his2->Fill(rnd);
+ }}
- */
+*/
}
//_____________________________________________________________________________
Bool_t AliAnalysisTaskFilteredTree::ConstrainTPCInner(AliExternalTrackParam *const tpcInnerC, const AliESDVertex* vtx, Double_t b[3])
{
- // Constrain TPC inner params constrained
- //
- if(!tpcInnerC) return kFALSE;
- if(!vtx) return kFALSE;
+ // Constrain TPC inner params constrained
+ //
+ if(!tpcInnerC) return kFALSE;
+ if(!vtx) return kFALSE;
- Double_t dz[2],cov[3];
- //AliESDVertex *vtx= (AliESDVertex *)esdEvent->GetPrimaryVertex();
- //if(!tpcInnerC->PropagateToDCA(vtx, esdEvent->GetMagneticField(), 3, dz, cov)) return kFALSE;
- //if(!tpcInnerC->PropagateToDCA(vtx, Bz, 3, dz, cov)) return kFALSE;
- if(!tpcInnerC->PropagateToDCABxByBz(vtx, b, 3, dz, cov)) return kFALSE;
+ Double_t dz[2],cov[3];
+ //AliESDVertex *vtx= (AliESDVertex *)esdEvent->GetPrimaryVertex();
+ //if(!tpcInnerC->PropagateToDCA(vtx, esdEvent->GetMagneticField(), 3, dz, cov)) return kFALSE;
+ //if(!tpcInnerC->PropagateToDCA(vtx, Bz, 3, dz, cov)) return kFALSE;
+ if(!tpcInnerC->PropagateToDCABxByBz(vtx, b, 3, dz, cov)) return kFALSE;
- Double_t covar[6]; vtx->GetCovMatrix(covar);
- Double_t p[2]={tpcInnerC->GetParameter()[0]-dz[0],tpcInnerC->GetParameter()[1]-dz[1]};
- Double_t c[3]={covar[2],0.,covar[5]};
- Double_t chi2C=tpcInnerC->GetPredictedChi2(p,c);
- if (chi2C>kVeryBig) return kFALSE;
+ Double_t covar[6]; vtx->GetCovMatrix(covar);
+ Double_t p[2]={tpcInnerC->GetParameter()[0]-dz[0],tpcInnerC->GetParameter()[1]-dz[1]};
+ Double_t c[3]={covar[2],0.,covar[5]};
+ Double_t chi2C=tpcInnerC->GetPredictedChi2(p,c);
+ if (chi2C>kVeryBig) return kFALSE;
- if(!tpcInnerC->Update(p,c)) return kFALSE;
+ if(!tpcInnerC->Update(p,c)) return kFALSE;
return kTRUE;
}
//_____________________________________________________________________________
Bool_t AliAnalysisTaskFilteredTree::ConstrainTrackInner(AliExternalTrackParam *const trackInnerC, const AliESDVertex* vtx, Double_t mass, Double_t b[3])
{
- // Constrain TPC inner params constrained
- //
- if(!trackInnerC) return kFALSE;
- if(!vtx) return kFALSE;
+ // Constrain TPC inner params constrained
+ //
+ if(!trackInnerC) return kFALSE;
+ if(!vtx) return kFALSE;
- const Double_t kRadius = 2.8;
- const Double_t kMaxStep = 1.0;
+ const Double_t kRadius = 2.8;
+ const Double_t kMaxStep = 1.0;
- Double_t dz[2],cov[3];
+ Double_t dz[2],cov[3];
- //AliESDVertex *vtx= (AliESDVertex *)esdEvent->GetPrimaryVertex();
- //if(!trackInnerC->PropagateToDCA(vtx, esdEvent->GetMagneticField(), 3, dz, cov)) return kFALSE;
- //if(!trackInnerC->PropagateToDCA(vtx, Bz, 3, dz, cov)) return kFALSE;
+ //AliESDVertex *vtx= (AliESDVertex *)esdEvent->GetPrimaryVertex();
+ //if(!trackInnerC->PropagateToDCA(vtx, esdEvent->GetMagneticField(), 3, dz, cov)) return kFALSE;
+ //if(!trackInnerC->PropagateToDCA(vtx, Bz, 3, dz, cov)) return kFALSE;
- if(!AliTracker::PropagateTrackToBxByBz(trackInnerC,kRadius,mass,kMaxStep,kFALSE)) return kFALSE;
- if(!trackInnerC->PropagateToDCABxByBz(vtx, b, 3, dz, cov)) return kFALSE;
+ if(!AliTracker::PropagateTrackToBxByBz(trackInnerC,kRadius,mass,kMaxStep,kFALSE)) return kFALSE;
+ if(!trackInnerC->PropagateToDCABxByBz(vtx, b, 3, dz, cov)) return kFALSE;
- //
- Double_t covar[6]; vtx->GetCovMatrix(covar);
- Double_t p[2]={trackInnerC->GetParameter()[0]-dz[0],trackInnerC->GetParameter()[1]-dz[1]};
- Double_t c[3]={covar[2],0.,covar[5]};
- Double_t chi2C=trackInnerC->GetPredictedChi2(p,c);
- if (chi2C>kVeryBig) return kFALSE;
+ //
+ Double_t covar[6]; vtx->GetCovMatrix(covar);
+ Double_t p[2]={trackInnerC->GetParameter()[0]-dz[0],trackInnerC->GetParameter()[1]-dz[1]};
+ Double_t c[3]={covar[2],0.,covar[5]};
+ Double_t chi2C=trackInnerC->GetPredictedChi2(p,c);
+ if (chi2C>kVeryBig) return kFALSE;
- if(!trackInnerC->Update(p,c)) return kFALSE;
+ if(!trackInnerC->Update(p,c)) return kFALSE;
return kTRUE;
}
if (motherLabel>=mcStackSize) return NULL;
mother = stack->Particle(motherLabel);
-return mother;
+ return mother;
}
//_____________________________________________________________________________
-Bool_t AliAnalysisTaskFilteredTree::IsFromConversion(const Int_t label, AliStack *const stack)
+Bool_t AliAnalysisTaskFilteredTree::IsFromConversion(Int_t label, AliStack *const stack)
{
Bool_t isFromConversion = kFALSE;
if(particle && particle->GetPDG() && particle->GetPDG()->Charge()!=0)
{
- Int_t mech = particle->GetUniqueID(); // production mechanism
- Bool_t isPrim = stack->IsPhysicalPrimary(label);
+ Int_t mech = particle->GetUniqueID(); // production mechanism
+ Bool_t isPrim = stack->IsPhysicalPrimary(label);
- Int_t motherLabel = TMath::Abs(particle->GetMother(0));
- if (motherLabel>=mcStackSize) return kFALSE;
- TParticle* mother = stack->Particle(motherLabel);
- if(mother) {
- Int_t motherPdg = mother->GetPdgCode();
+ Int_t motherLabel = TMath::Abs(particle->GetMother(0));
+ if (motherLabel>=mcStackSize) return kFALSE;
+ TParticle* mother = stack->Particle(motherLabel);
+ if(mother) {
+ Int_t motherPdg = mother->GetPdgCode();
- if(!isPrim && mech==5 && motherPdg==kGamma) {
- isFromConversion=kTRUE;
- }
- }
+ if(!isPrim && mech==5 && motherPdg==kGamma) {
+ isFromConversion=kTRUE;
+ }
+ }
}
}
}
//_____________________________________________________________________________
-Bool_t AliAnalysisTaskFilteredTree::IsFromMaterial(const Int_t label, AliStack *const stack)
+Bool_t AliAnalysisTaskFilteredTree::IsFromMaterial(Int_t label, AliStack *const stack)
{
Bool_t isFromMaterial = kFALSE;
if(particle && particle->GetPDG() && particle->GetPDG()->Charge()!=0)
{
- Int_t mech = particle->GetUniqueID(); // production mechanism
- Bool_t isPrim = stack->IsPhysicalPrimary(label);
-
- Int_t motherLabel = TMath::Abs(particle->GetMother(0));
- if (motherLabel>=mcStackSize) return kFALSE;
- TParticle* mother = stack->Particle(motherLabel);
- if(mother) {
- if(!isPrim && mech==13) {
- isFromMaterial=kTRUE;
- }
- }
- }
+ Int_t mech = particle->GetUniqueID(); // production mechanism
+ Bool_t isPrim = stack->IsPhysicalPrimary(label);
+
+ Int_t motherLabel = TMath::Abs(particle->GetMother(0));
+ if (motherLabel>=mcStackSize) return kFALSE;
+ TParticle* mother = stack->Particle(motherLabel);
+ if(mother) {
+ if(!isPrim && mech==13) {
+ isFromMaterial=kTRUE;
+ }
+ }
+ }
}
return isFromMaterial;
}
//_____________________________________________________________________________
-Bool_t AliAnalysisTaskFilteredTree::IsFromStrangeness(const Int_t label, AliStack *const stack)
+Bool_t AliAnalysisTaskFilteredTree::IsFromStrangeness(Int_t label, AliStack *const stack)
{
Bool_t isFromStrangeness = kFALSE;
if(particle && particle->GetPDG() && particle->GetPDG()->Charge()!=0)
{
- Int_t mech = particle->GetUniqueID(); // production mechanism
- Bool_t isPrim = stack->IsPhysicalPrimary(label);
-
- Int_t motherLabel = TMath::Abs(particle->GetMother(0));
- if (motherLabel>=mcStackSize) return kFALSE;
- TParticle* mother = stack->Particle(motherLabel);
- if(mother) {
- Int_t motherPdg = mother->GetPdgCode();
-
- // K+-, lambda, antilambda, K0s decays
- if(!isPrim && mech==4 &&
- (TMath::Abs(motherPdg)==kKPlus || TMath::Abs(motherPdg)==kLambda0 || motherPdg==kK0Short))
- {
- isFromStrangeness = kTRUE;
- }
- }
+ Int_t mech = particle->GetUniqueID(); // production mechanism
+ Bool_t isPrim = stack->IsPhysicalPrimary(label);
+
+ Int_t motherLabel = TMath::Abs(particle->GetMother(0));
+ if (motherLabel>=mcStackSize) return kFALSE;
+ TParticle* mother = stack->Particle(motherLabel);
+ if(mother) {
+ Int_t motherPdg = mother->GetPdgCode();
+
+ // K+-, lambda, antilambda, K0s decays
+ if(!isPrim && mech==4 &&
+ (TMath::Abs(motherPdg)==kKPlus || TMath::Abs(motherPdg)==kLambda0 || motherPdg==kK0Short))
+ {
+ isFromStrangeness = kTRUE;
+ }
+ }
}
}
// Called one at the end
// locally on working node
//
-
- //// must be deleted to store trees
- //if(fTreeSRedirector) delete fTreeSRedirector; fTreeSRedirector=0;
-
- //// open temporary file and copy trees to the ouptut container
-
- //TChain* chain = 0;
- ////
- //chain = new TChain("highPt");
- //if(chain) {
- // chain->Add("jotwinow_Temp_Trees.root");
- // fHighPtTree = chain->CopyTree("1");
- // delete chain; chain=0;
- //}
- //if(fHighPtTree) fHighPtTree->Print();
-
- ////
- //chain = new TChain("V0s");
- //if(chain) {
- // chain->Add("jotwinow_Temp_Trees.root");
- // fV0Tree = chain->CopyTree("1");
- // delete chain; chain=0;
- //}
- //if(fV0Tree) fV0Tree->Print();
-
- ////
- //chain = new TChain("dEdx");
- //if(chain) {
- // chain->Add("jotwinow_Temp_Trees.root");
- // fdEdxTree = chain->CopyTree("1");
- // delete chain; chain=0;
- //}
- //if(fdEdxTree) fdEdxTree->Print();
-
- ////
- //chain = new TChain("Laser");
- //if(chain) {
- // chain->Add("jotwinow_Temp_Trees.root");
- // fLaserTree = chain->CopyTree("1");
- // delete chain; chain=0;
- //}
- //if(fLaserTree) fLaserTree->Print();
-
- ////
- //chain = new TChain("MCEffTree");
- //if(chain) {
- // chain->Add("jotwinow_Temp_Trees.root");
- // fMCEffTree = chain->CopyTree("1");
- // delete chain; chain=0;
- //}
- //if(fMCEffTree) fMCEffTree->Print();
-
- ////
- //chain = new TChain("CosmicPairs");
- //if(chain) {
- // chain->Add("jotwinow_Temp_Trees.root");
- // fCosmicPairsTree = chain->CopyTree("1");
- // delete chain; chain=0;
- //}
- //if(fCosmicPairsTree) fCosmicPairsTree->Print();
-
Bool_t deleteTrees=kTRUE;
if ((AliAnalysisManager::GetAnalysisManager()))
{
if (AliAnalysisManager::GetAnalysisManager()->GetAnalysisType() ==
- AliAnalysisManager::kProofAnalysis)
+ AliAnalysisManager::kProofAnalysis)
deleteTrees=kFALSE;
}
if (deleteTrees) delete fTreeSRedirector;
fTreeSRedirector=NULL;
-
- //OpenFile(1);
-
- // Post output data.
- //PostData(1, fHighPtTree);
- //PostData(2, fV0Tree);
- //PostData(3, fdEdxTree);
- //PostData(4, fLaserTree);
- //PostData(5, fMCEffTree);
- //PostData(6, fCosmicPairsTree);
}
//_____________________________________________________________________________
void AliAnalysisTaskFilteredTree::Terminate(Option_t *)
{
+ //
// Called one at the end
- /*
- fOutputSummary = dynamic_cast<TTree*> (GetOutputData(1));
- if(fOutputSummary) delete fOutputSummary; fOutputSummary=0;
- TChain* chain = new TChain("highPt");
- if(!chain) return;
- chain->Add("jotwinow_HighPt_TrackAndV0_Trees.root");
- TTree *tree = chain->CopyTree("1");
- if (chain) { delete chain; chain=0; }
- if(!tree) return;
- tree->Print();
- fOutputSummary = tree;
-
- if (!fOutputSummary) {
- Printf("ERROR: AliAnalysisTaskFilteredTree::Terminate(): Output data not avaiable %p \n", GetOutputData(1));
- return;
- }
- */
-
+ //
}
//_____________________________________________________________________________
Int_t nPart = stack->GetNtrack();
for (Int_t iMc = 0; iMc < nPart; ++iMc)
{
- TParticle* particle = stack->Particle(iMc);
- if (!particle)
- continue;
-
- // only charged particles
- if(!particle->GetPDG()) continue;
- Double_t charge = particle->GetPDG()->Charge()/3.;
- if (TMath::Abs(charge) < 0.001)
- continue;
-
- // physical primary
- Bool_t prim = stack->IsPhysicalPrimary(iMc);
- if(!prim) continue;
-
- // checked accepted without pt cut
- //if(accCuts->AcceptTrack(particle))
- if( particle->Eta() > accCuts->GetMinEta() && particle->Eta() < accCuts->GetMaxEta() )
- {
- mult++;
- }
+ TParticle* particle = stack->Particle(iMc);
+ if (!particle)
+ continue;
+
+ // only charged particles
+ if(!particle->GetPDG()) continue;
+ Double_t charge = particle->GetPDG()->Charge()/3.;
+ if (TMath::Abs(charge) < 0.001)
+ continue;
+
+ // physical primary
+ Bool_t prim = stack->IsPhysicalPrimary(iMc);
+ if(!prim) continue;
+
+ // checked accepted without pt cut
+ //if(accCuts->AcceptTrack(particle))
+ if( particle->Eta() > accCuts->GetMinEta() && particle->Eta() < accCuts->GetMaxEta() )
+ {
+ mult++;
+ }
}
-return mult;
+ return mult;
}
//_____________________________________________________________________________
-void AliAnalysisTaskFilteredTree::FillHistograms(AliESDtrack* const ptrack, AliExternalTrackParam* const ptpcInnerC, const Double_t centralityF, const Double_t chi2TPCInnerC)
+void AliAnalysisTaskFilteredTree::FillHistograms(AliESDtrack* const ptrack, AliExternalTrackParam* const ptpcInnerC, Double_t centralityF, Double_t chi2TPCInnerC)
{
-//
-// Fill pT relative resolution histograms for
-// TPC only, TPC only constrained to vertex and TPC+ITS tracking
-//
- if(!ptrack) return;
- if(!ptpcInnerC) return;
-
- const AliExternalTrackParam * innerParam = (AliExternalTrackParam *) ptrack->GetInnerParam();
- if(!innerParam) return;
-
- Float_t dxy, dz;
- ptrack->GetImpactParameters(dxy,dz);
-
-// TPC+ITS primary tracks
-if( abs(ptrack->Eta())<0.8 &&
- ptrack->GetTPCClusterInfo(3,1)>120 &&
- ptrack->IsOn(0x40) &&
- ptrack->GetTPCclusters(0)>0.0 &&
- ptrack->GetTPCnclsS()/ptrack->GetTPCclusters(0)<0.4 &&
- //abs(innerParam->GetX())>0.0 &&
- //abs(innerParam->GetY()/innerParam->GetX())<0.14 &&
- //abs(innerParam->GetTgl())<0.85 &&
- ptrack->IsOn(0x0004) &&
- ptrack->GetNcls(0)>0 &&
- ptrack->GetITSchi2()>0 &&
- sqrt(ptrack->GetITSchi2()/ptrack->GetNcls(0))<6 &&
- sqrt(chi2TPCInnerC)<6 &&
- (ptrack->HasPointOnITSLayer(0) || ptrack->HasPointOnITSLayer(1)) &&
- abs(dz)<2.0 &&
- abs(dxy)<(0.018+0.035*abs(ptrack->GetSigned1Pt())) )
- {
- fPtResPhiPtTPCITS->Fill(ptrack->Pt(),ptrack->Phi(),1./abs(ptrack->GetSigned1Pt())*TMath::Sqrt(ptrack->GetSigma1Pt2()));
- fPtResEtaPtTPCITS->Fill(ptrack->Pt(),ptrack->Eta(),1./abs(ptrack->GetSigned1Pt())*TMath::Sqrt(ptrack->GetSigma1Pt2()));
- fPtResCentPtTPCITS->Fill(ptrack->Pt(),centralityF,1./abs(ptrack->GetSigned1Pt())*TMath::Sqrt(ptrack->GetSigma1Pt2()));
- }
+ //
+ // Fill pT relative resolution histograms for
+ // TPC only, TPC only constrained to vertex and TPC+ITS tracking
+ //
+ if(!ptrack) return;
+ if(!ptpcInnerC) return;
+
+ const AliExternalTrackParam * innerParam = (AliExternalTrackParam *) ptrack->GetInnerParam();
+ if(!innerParam) return;
+
+ Float_t dxy, dz;
+ ptrack->GetImpactParameters(dxy,dz);
+
+ // TPC+ITS primary tracks
+ if( abs(ptrack->Eta())<0.8 &&
+ ptrack->GetTPCClusterInfo(3,1)>120 &&
+ ptrack->IsOn(0x40) &&
+ ptrack->GetTPCclusters(0)>0.0 &&
+ ptrack->GetTPCnclsS()/ptrack->GetTPCclusters(0)<0.4 &&
+ //abs(innerParam->GetX())>0.0 &&
+ //abs(innerParam->GetY()/innerParam->GetX())<0.14 &&
+ //abs(innerParam->GetTgl())<0.85 &&
+ ptrack->IsOn(0x0004) &&
+ ptrack->GetNcls(0)>0 &&
+ ptrack->GetITSchi2()>0 &&
+ sqrt(ptrack->GetITSchi2()/ptrack->GetNcls(0))<6 &&
+ sqrt(chi2TPCInnerC)<6 &&
+ (ptrack->HasPointOnITSLayer(0) || ptrack->HasPointOnITSLayer(1)) &&
+ abs(dz)<2.0 &&
+ abs(dxy)<(0.018+0.035*abs(ptrack->GetSigned1Pt())) )
+ {
+ fPtResPhiPtTPCITS->Fill(ptrack->Pt(),ptrack->Phi(),1./abs(ptrack->GetSigned1Pt())*TMath::Sqrt(ptrack->GetSigma1Pt2()));
+ fPtResEtaPtTPCITS->Fill(ptrack->Pt(),ptrack->Eta(),1./abs(ptrack->GetSigned1Pt())*TMath::Sqrt(ptrack->GetSigma1Pt2()));
+ fPtResCentPtTPCITS->Fill(ptrack->Pt(),centralityF,1./abs(ptrack->GetSigned1Pt())*TMath::Sqrt(ptrack->GetSigma1Pt2()));
+ }
-// TPC primary tracks
-// and TPC constrained primary tracks
+ // TPC primary tracks
+ // and TPC constrained primary tracks
- AliExternalTrackParam *ptpcInner = (AliExternalTrackParam *) ptrack->GetTPCInnerParam();
- if(!ptpcInner) return;
+ AliExternalTrackParam *ptpcInner = (AliExternalTrackParam *) ptrack->GetTPCInnerParam();
+ if(!ptpcInner) return;
- Float_t dxyTPC, dzTPC;
- ptrack->GetImpactParametersTPC(dxyTPC,dzTPC);
+ Float_t dxyTPC, dzTPC;
+ ptrack->GetImpactParametersTPC(dxyTPC,dzTPC);
-if( abs(ptrack->Eta())<0.8 &&
- ptrack->GetTPCClusterInfo(3,1)>120 &&
- ptrack->IsOn(0x40)&&
- ptrack->GetTPCclusters(0)>0.0 &&
- ptrack->GetTPCnclsS()/ptrack->GetTPCclusters(0)<0.4 &&
- //abs(innerParam->GetX())>0.0 &&
- //abs(innerParam->GetY()/innerParam->GetX())<0.14 &&
- //abs(innerParam->GetTgl())<0.85 &&
- abs(dzTPC)<3.2 &&
- abs(dxyTPC)<2.4 )
- {
- // TPC only
- fPtResPhiPtTPC->Fill(ptpcInner->Pt(),ptpcInner->Phi(),1./abs(ptpcInner->GetSigned1Pt())*TMath::Sqrt(ptpcInner->GetSigma1Pt2()));
- fPtResEtaPtTPC->Fill(ptpcInner->Pt(),ptpcInner->Eta(),1./abs(ptpcInner->GetSigned1Pt())*TMath::Sqrt(ptpcInner->GetSigma1Pt2()));
- fPtResCentPtTPC->Fill(ptpcInner->Pt(),centralityF,1./abs(ptpcInner->GetSigned1Pt())*TMath::Sqrt(ptpcInner->GetSigma1Pt2()));
-
- // TPC constrained to vertex
- fPtResPhiPtTPCc->Fill(ptpcInnerC->Pt(),ptpcInnerC->Phi(),1./abs(ptpcInnerC->GetSigned1Pt())*TMath::Sqrt(ptpcInnerC->GetSigma1Pt2()));
- fPtResEtaPtTPCc->Fill(ptpcInnerC->Pt(),ptpcInnerC->Eta(),1./abs(ptpcInnerC->GetSigned1Pt())*TMath::Sqrt(ptpcInnerC->GetSigma1Pt2()));
- fPtResCentPtTPCc->Fill(ptpcInnerC->Pt(),centralityF,1./abs(ptpcInnerC->GetSigned1Pt())*TMath::Sqrt(ptpcInnerC->GetSigma1Pt2()));
+ if( abs(ptrack->Eta())<0.8 &&
+ ptrack->GetTPCClusterInfo(3,1)>120 &&
+ ptrack->IsOn(0x40)&&
+ ptrack->GetTPCclusters(0)>0.0 &&
+ ptrack->GetTPCnclsS()/ptrack->GetTPCclusters(0)<0.4 &&
+ //abs(innerParam->GetX())>0.0 &&
+ //abs(innerParam->GetY()/innerParam->GetX())<0.14 &&
+ //abs(innerParam->GetTgl())<0.85 &&
+ abs(dzTPC)<3.2 &&
+ abs(dxyTPC)<2.4 )
+ {
+ // TPC only
+ fPtResPhiPtTPC->Fill(ptpcInner->Pt(),ptpcInner->Phi(),1./abs(ptpcInner->GetSigned1Pt())*TMath::Sqrt(ptpcInner->GetSigma1Pt2()));
+ fPtResEtaPtTPC->Fill(ptpcInner->Pt(),ptpcInner->Eta(),1./abs(ptpcInner->GetSigned1Pt())*TMath::Sqrt(ptpcInner->GetSigma1Pt2()));
+ fPtResCentPtTPC->Fill(ptpcInner->Pt(),centralityF,1./abs(ptpcInner->GetSigned1Pt())*TMath::Sqrt(ptpcInner->GetSigma1Pt2()));
+
+ // TPC constrained to vertex
+ fPtResPhiPtTPCc->Fill(ptpcInnerC->Pt(),ptpcInnerC->Phi(),1./abs(ptpcInnerC->GetSigned1Pt())*TMath::Sqrt(ptpcInnerC->GetSigma1Pt2()));
+ fPtResEtaPtTPCc->Fill(ptpcInnerC->Pt(),ptpcInnerC->Eta(),1./abs(ptpcInnerC->GetSigned1Pt())*TMath::Sqrt(ptpcInnerC->GetSigma1Pt2()));
+ fPtResCentPtTPCc->Fill(ptpcInnerC->Pt(),centralityF,1./abs(ptpcInnerC->GetSigned1Pt())*TMath::Sqrt(ptpcInnerC->GetSigma1Pt2()));
+ }
+}
+
+
+void AliAnalysisTaskFilteredTree::ProcessITSTPCmatchOut(AliESDEvent *const esdEvent, AliESDfriend *const esdFriend){
+ //
+ // Process ITS standalone tracks find match with closest TPC(or combined tracks) tracks
+ // marian.ivanov@cern.ch
+ // 0.) Init variables
+ // 1.) GetTrack parameters at TPC inner wall
+ // 2.) Match closest TPC track (STANDALONE/global) - chi2 match criteria
+ //
+ // Logic to be used in reco:
+ // 1.) Find matching ITSalone->TPCalone
+ // 2.) if (!TPCalone.FindClose(TPCother)) TPCalone.Addopt(ITSalone)
+ // 3.) ff ((ITSalone.FindClose(Global)==0) CreateGlobaltrack
+ const Double_t radiusMatch=84.; // redius to propagate
+ //
+ const Double_t dFastPhiCut=0.2; // 6 sigma (200 MeV) fast angular cut
+ const Double_t dFastThetaCut=0.12; // 6 sigma (200 MeV) fast angular cut
+ const Double_t dFastPosPhiCut=0.06; // 6 sigma (200 MeV) fast angular cut
+ const Double_t dFastZCut=6; // 6 sigma (200 MeV) fast z difference cut
+ const Double_t dFastPtCut=2.; // 6 sigma (200 MeV) fast 1/pt cut
+ const Double_t chi2Cut=100; // chi2 matching cut
+ //
+ if (!esdFriend) return; // not ITS standalone track
+ if (esdFriend->TestSkipBit()) return; // friends tracks not stored
+ Int_t ntracks=esdEvent->GetNumberOfTracks();
+ Float_t bz = esdEvent->GetMagneticField();
+ //
+ // 0.) Get parameters in reference radius TPC Inner wall
+ //
+ //
+ TMatrixD vecPosR0(ntracks,6); // possition and momentum estimate at reference radius
+ TMatrixD vecMomR0(ntracks,6); //
+ TMatrixD vecPosR1(ntracks,6); // possition and momentum estimate at reference radius TPC track
+ TMatrixD vecMomR1(ntracks,6); //
+ Double_t xyz[3], pxyz[3]; //
+ for (Int_t iTrack=0; iTrack<ntracks; iTrack++){
+ AliESDtrack *track = esdEvent->GetTrack(iTrack);
+ if(!track) continue;
+ if (track->GetInnerParam()){
+ const AliExternalTrackParam *trackTPC=track->GetInnerParam();
+ trackTPC->GetXYZAt(radiusMatch,bz,xyz);
+ trackTPC->GetPxPyPzAt(radiusMatch,bz,pxyz);
+ for (Int_t i=0; i<3; i++){
+ vecPosR1(iTrack,i)=xyz[i];
+ vecMomR1(iTrack,i)=pxyz[i];
+ }
+ vecPosR1(iTrack,3)= TMath::ATan2(xyz[1],xyz[0]); // phi pos angle
+ vecMomR1(iTrack,3)= TMath::ATan2(pxyz[1],pxyz[0]); // phi mom angle
+ vecMomR1(iTrack,4)= trackTPC->GetSigned1Pt();;
+ vecMomR1(iTrack,5)= trackTPC->GetTgl();;
+ }
+ AliESDfriendTrack* friendTrack=esdFriend->GetTrack(iTrack);
+ if(!friendTrack) continue;
+ if (friendTrack->GetITSOut()){
+ const AliExternalTrackParam *trackITS=friendTrack->GetITSOut();
+ trackITS->GetXYZAt(radiusMatch,bz,xyz);
+ trackITS->GetPxPyPzAt(radiusMatch,bz,pxyz);
+ for (Int_t i=0; i<3; i++){
+ vecPosR0(iTrack,i)=xyz[i];
+ vecMomR0(iTrack,i)=pxyz[i];
+ }
+ vecPosR0(iTrack,3)= TMath::ATan2(xyz[1],xyz[0]);
+ vecMomR0(iTrack,3)= TMath::ATan2(pxyz[1],pxyz[0]);
+ vecMomR0(iTrack,4)= trackITS->GetSigned1Pt();;
+ vecMomR0(iTrack,5)= trackITS->GetTgl();;
+ }
+ }
+ //
+ // 1.) Find closest matching tracks, between the ITS standalone track
+ // and the all other tracks
+ // a.) caltegory - All
+ // b.) category - without ITS
+ //
+ //
+ Int_t ntracksPropagated=0;
+ AliExternalTrackParam extTrackDummy;
+ AliESDtrack esdTrackDummy;
+ AliExternalTrackParam itsAtTPC;
+ AliExternalTrackParam itsAtITSTPC;
+ for (Int_t iTrack0=0; iTrack0<ntracks; iTrack0++){
+ AliESDtrack *track0 = esdEvent->GetTrack(iTrack0);
+ if(!track0) continue;
+ if (track0->IsOn(AliVTrack::kTPCin)) continue;
+ AliESDfriendTrack* friendTrack0=esdFriend->GetTrack(iTrack0);
+ if (!friendTrack0) continue;
+ //if (!track0->IsOn(AliVTrack::kITSpureSA)) continue;
+ //if (!friendTrack0->GetITSOut()) continue; // is there flag for ITS standalone?
+ ntracksPropagated++;
+ //
+ // 2.) find clostest TPCtrack
+ // a.) all tracks
+ Double_t minChi2All=10000000;
+ Double_t minChi2TPC=10000000;
+ Double_t minChi2TPCITS=10000000;
+ Int_t indexAll=-1;
+ Int_t indexTPC=-1;
+ Int_t indexTPCITS=-1;
+ Int_t ncandidates0=0; // n candidates - rough cut
+ Int_t ncandidates1=0; // n candidates - rough + chi2 cut
+ itsAtTPC=*(friendTrack0->GetITSOut());
+ itsAtITSTPC=*(friendTrack0->GetITSOut());
+ for (Int_t iTrack1=0; iTrack1<ntracks; iTrack1++){
+ AliESDtrack *track1 = esdEvent->GetTrack(iTrack1);
+ if(!track1) continue;
+ if (!track1->IsOn(AliVTrack::kTPCin)) continue;
+ // fast checks
+ //
+ if (TMath::Abs(vecPosR1(iTrack1,2)-vecPosR0(iTrack0,2))>dFastZCut) continue;
+ if (TMath::Abs(vecPosR1(iTrack1,3)-vecPosR0(iTrack0,3))>dFastPosPhiCut) continue;
+ if (TMath::Abs(vecMomR1(iTrack1,3)-vecMomR0(iTrack0,3))>dFastPhiCut) continue;
+ if (TMath::Abs(vecMomR1(iTrack1,5)-vecMomR0(iTrack0,5))>dFastThetaCut) continue;
+ if (TMath::Abs(vecMomR1(iTrack1,4)-vecMomR0(iTrack0,4))>dFastPtCut) continue;
+ ncandidates0++;
+ //
+ const AliExternalTrackParam * param1= track1->GetInnerParam();
+ if (!friendTrack0->GetITSOut()) continue;
+ AliExternalTrackParam outerITS = *(friendTrack0->GetITSOut());
+ if (!outerITS.Rotate(param1->GetAlpha())) continue;
+ if (!outerITS.PropagateTo(param1->GetX(),bz)) continue; // assume track close to the TPC inner wall
+ Double_t chi2 = outerITS.GetPredictedChi2(param1);
+ if (chi2>chi2Cut) continue;
+ ncandidates1++;
+ if (chi2<minChi2All){
+ minChi2All=chi2;
+ indexAll=iTrack1;
+ }
+ if (chi2<minChi2TPC && track1->IsOn(AliVTrack::kITSin)==0){
+ minChi2TPC=chi2;
+ indexTPC=iTrack1;
+ itsAtTPC=outerITS;
+ }
+ if (chi2<minChi2TPCITS && track1->IsOn(AliVTrack::kITSin)){
+ minChi2TPCITS=chi2;
+ indexTPCITS=iTrack1;
+ itsAtITSTPC=outerITS;
+ }
}
+ //
+ AliESDtrack * trackAll= (indexAll>=0)? esdEvent->GetTrack(indexAll):&esdTrackDummy;
+ AliESDtrack * trackTPC= (indexTPC>=0)? esdEvent->GetTrack(indexTPC):&esdTrackDummy;
+ AliESDtrack * trackTPCITS= (indexTPCITS>=0)? esdEvent->GetTrack(indexTPCITS):&esdTrackDummy;
+ (*fTreeSRedirector)<<"itsTPC"<<
+ "indexAll="<<indexAll<< // index of closest track (chi2)
+ "indexTPC="<<indexTPC<< // index of closest TPCalone tracks
+ "indexTPCITS="<<indexTPCITS<< // index of closest cobined tracks
+ "ncandidates0="<<ncandidates0<< // number of candidates
+ "ncandidates1="<<ncandidates1<<
+ //
+ "chi2All="<<minChi2All<< // chi2 of closest tracks
+ "chi2TPC="<<minChi2TPC<<
+ "chi2TPCITS="<<minChi2TPCITS<<
+ //
+ "track0.="<<track0<< // ITS standalone tracks
+ "trackAll.="<<trackAll<< // Closets other track
+ "trackTPC.="<<trackTPC<< // Closest TPC only track
+ "trackTPCITS.="<<trackTPCITS<< // closest combined track
+ //
+ "itsAtTPC.="<<&itsAtTPC<< // ITS track parameters at the TPC alone track frame
+ "itsAtITSTPC.="<<&itsAtITSTPC<< // ITS track parameters at the TPC combeined track frame
+ "\n";
+ }
+}
+
+void AliAnalysisTaskFilteredTree::ProcessTrackMatch(AliESDEvent *const /*esdEvent*/, AliESDfriend *const /*esdFriend*/){
+/*
+ Use TPC standalone, ITS standalone and combined tracks to categorize/resp. recover track information.
+
+ Track categories:
+ -TPC+ITS
+ -TPC only
+ -ITS only
+ Topology categories:
+ -Nice isolated tracks with full information
+ -Overlapped tracks - Refit and sign them
+ -Multiple found (check overlap factor) - Merge and sign
+ -Charge particle (kink) decays - Change of direction - Sign them)
+ Info:
+ -Array of indexes of closest tracks in each individual category
+ -Chi2 distance to the closest tracks at reference radius of TPCin
+ -Overlap factors - fraction of shared clusters or missing region
+ -Chi2 distance at DCA
+ Information matrix:
+ -matrix closest tracks from each categories
+ -characterization - chi2, index,chi2, overlap ratio
+
+ Decissions:
+ 0.) Kink decay or catastophic multiple scaterring
+ (combining all track categories)
+ - small chi2 at the DCA
+ - significantly large deflection angle
+ - Combinatorial algorithm - to decrease CPU time restriction of investigation to tracks with small DCA at refernce radius
+
+ 1.) if (TPConly && !(TPC+ITS) && ITSonly match ) {
+ if (!kink) TPCOnly.addoptITS
+ if (kink) TPConly sign
+ }
+
+ 2.) Overlap tracks - Refit with doUnfold
+
+*/
}